CN215757956U - Intermittent quantitative material supplementing control mechanism of embroidery machine - Google Patents

Abstract

The utility model discloses an intermittent quantitative material supplementing control mechanism of an embroidery machine, which comprises a material cup, a blanking pipe, a C-shaped rotating arm and a pin post, wherein the material cup is provided with a feeding hole; a cup cover is arranged at the opening of the material cup; the blanking pipe is fixed on the cup cover, a blanking cover is arranged below a lower end outlet of the blanking pipe, one end of the C-shaped rotating arm is fixedly connected with the blanking cover, the other end of the C-shaped rotating arm is hinged to the blanking pipe, the pin column penetrates through the cup cover and is in sliding fit with the cup cover, the lower end of the pin column is in contact with the C-shaped rotating arm, a pressing mechanism capable of pressing or separating from the pin column is arranged on the cup cover, when the pressing mechanism presses the pin column, the lower end of the pin column presses the C-shaped rotating arm, the lower end outlet of the blanking pipe is supported by the blanking cover to enable the lower end outlet of the blanking pipe to be in a closed state, when the pressing mechanism is separated from the pin column, the lower end of the pin column loosens the C-shaped rotating arm, and the blanking cover leaves the lower end outlet of the blanking pipe under the action of gravity to enable the lower end outlet of the blanking pipe to be in an open state. The utility model has the advantages of compact structure, convenient installation and maintenance, low cost, good use stability and difficult failure.

Description

Intermittent quantitative material supplementing control mechanism of embroidery machine

Technical Field

The utility model relates to an embroidery machine, in particular to an intermittent and quantitative material supplementing control mechanism of the embroidery machine.

Background

The computerized embroidery machine is electromechanical integrated textile equipment with various complicated patterns embroidered by organically combining a computer control system and an embroidery machine. The loose beads used for embroidering on the embroidery machine are usually stored in the bead wire disk, the bead wire disk rotates, the bead wire is fixed, so that the loose beads with certain probability in the bead wire disk are arranged on the bead wire in a penetrating way, the loose beads on the back of the bead wire can push the front loose beads to advance, and the loose beads can reach the bead feeding mechanism along the bead wire to be embroidered.

At present usually carry out artifical feed supplement to the string of beads dish, when loosing the pearl less in the string of beads dish promptly, add a certain amount of pearl that looses in to loosing the pearl dish through the manual work, artifical feed supplement not only operates inconveniently, wastes time and energy moreover.

For example, chinese patent No. CN213444858U, granted on publication No. 2021.06.15, discloses a feeding control mechanism for embroidery beads, which includes a feeding sleeve, an opening/closing cover, a limit switch, a driving mechanism, and a control unit, wherein the limit switch is electrically connected to the control unit, and the limit switch is used for controlling the driving mechanism to open and close the opening/closing cover. The embroidery bead feeding control mechanism at least has the following defects: (1) the limit switch proximity switch, the control unit and the driving mechanism are included, the structure is complex, and the cost and the failure rate are high; (2) the control unit and the driving mechanism need to occupy certain space when being installed, so that the volume of the embroidery machine is increased, and the installation and the maintenance of other parts on the embroidery machine are not facilitated; (3) the limit switch is electrically connected with the control unit, the limit switch is used for controlling the driving mechanism to open and close the opening and closing cover, and the limit switch, the control unit and the driving mechanism all need to be connected with wires and wired with a power supply wire or a gas source wire, so that the installation is inconvenient; (4) the proximity switch is affected by ambient temperature, and the detection accuracy and stability are poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems of the embroidery bead feeding control mechanism in the prior art, and provides the intermittent quantitative feeding control mechanism which is compact in structure, convenient to install and maintain, low in cost, good in use stability and not easy to break down.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model discloses an intermittent quantitative material supplementing control mechanism of an embroidery machine, which comprises a material cup, a blanking pipe, a C-shaped rotating arm and a pin post, wherein the material cup is provided with a feeding hole; a cup cover is arranged at the opening of the material cup, and the material cup can rotate relative to the cup cover; the blanking pipe is fixed on the cup cover, a blanking cover is arranged below a lower end outlet of the blanking pipe, one end of the C-shaped rotating arm is fixedly connected with the blanking cover, the other end of the C-shaped rotating arm is hinged to the blanking pipe, the pin column penetrates through the cup cover and is in sliding fit with the cup cover, the lower end of the pin column is in contact with the C-shaped rotating arm, a pressing mechanism capable of pressing or separating from the pin column is arranged on the cup cover, when the pressing mechanism presses the pin column, the lower end of the pin column presses the C-shaped rotating arm, the lower end outlet of the blanking pipe is supported by the blanking cover to enable the lower end outlet of the blanking pipe to be in a closed state, when the pressing mechanism is separated from the pin column, the lower end of the pin column loosens the C-shaped rotating arm, and the blanking cover leaves the lower end outlet of the blanking pipe under the action of gravity to enable the lower end outlet of the blanking pipe to be in an open state. The blanking pipe is used for supplementing materials, and the blanking pipe is connected with a material supplementing container such as a material supplementing hopper, and the opening and closing of the outlet at the lower end of the blanking pipe can be realized through the matching among the C-shaped rotating arm, the pin column and the pressing mechanism, so that the material supplementing can be carried out into the material cup through the blanking pipe according to the principle that: when the pressing mechanism presses the pin column downwards, the lower end of the pin column presses the C-shaped rotating arm downwards to enable the C-shaped rotating arm to be stressed and rotate, so that the lower opening cover rotates, when the lower opening cover rotates to be interfered with the lower end outlet of the blanking pipe, the pressing mechanism presses the pin column, the lower opening cover blocks the lower end outlet of the blanking pipe, and at the moment, the lower end outlet of the blanking pipe is closed; when the pressing mechanism is separated from the pin column, the lower end of the pin column loosens the C-shaped rotating arm, and the C-shaped rotating arm rotates under the action of gravity (the gravity of the cover and the C-shaped rotating arm), so that the lower opening cover is separated from the lower end outlet of the blanking pipe, and the lower end outlet of the blanking pipe is in an open state.

Preferably, the pressing mechanism comprises an installation frame, a downward pressing swing rod and a cam shaft; a supporting seat is fixed on one side of the mounting frame, the downward pressing swing rod is positioned above the cup cover, the inner end of the downward pressing swing rod can be in press fit with the upper end of the pin column, the outer end of the downward pressing swing rod is hinged with the upper portion of the supporting seat, a tension spring is arranged on one side of the downward pressing swing rod, and two ends of the tension spring are fixedly connected with the cup cover and the downward pressing swing rod respectively; the middle part of the supporting seat is hinged with a swing connecting rod, the upper end of the swing connecting rod is provided with a guide jacking part, the bottom surface of the downward pressing swing rod is provided with an arc groove surface, one section of the arc groove surface, which is close to the blanking pipe, is set as an extrusion inclined surface, and the guide jacking part is contacted with the arc groove surface and the extrusion inclined surface; the camshaft penetrates through the mounting frame and is rotatably connected with the mounting frame, and a cam is arranged on the camshaft; the bottom of the supporting seat is connected with a connecting rod shaft in a sliding mode, the end face of the inner end of the connecting rod shaft is in contact with the outer contour face of the cam, and the outer end of the connecting rod shaft is connected with the lower end of the swinging connecting rod in a rotating mode. The cam shaft can rotate under the drive of a drive mechanism (a motor and the like), the cam shaft drives the cam to synchronously rotate when rotating, the cam transmits the motion to the connecting rod shaft which is in contact with the cam shaft, and the connecting rod shaft makes reciprocating linear motion, so that the swinging connecting rod swings back and forth, the guide jacking part can move back and forth along the arc-shaped groove surface and the extrusion inclined surface, and the pressing swing rod falls down or jacks up; the tension spring can ensure that the downward-pressing swing rod can be always contacted with the arc-shaped groove surface and the extrusion inclined surface, simultaneously provides pressing force for the pin column, and can also press the guide jacking part to ensure that the end surface of the inner end of the connecting rod shaft is always contacted with the outer contour surface of the cam; when the flange of the cam is contacted with the inner end face of the connecting rod shaft, the connecting rod shaft moves outwards to the maximum displacement position, the guide jacking part at the upper end of the swing connecting rod slides inwards to the extrusion inclined plane and extrudes the extrusion inclined plane, so that the inner end of the downward pressing swing rod is jacked to separate from the upper end of the pin column, the lower end of the pin column loosens the C-shaped rotating arm at the moment, the C-shaped rotating arm rotates under the action of gravity (the gravity of the cover cap and the C-shaped rotating arm), the lower cover is separated from the lower end outlet of the blanking pipe, the lower end outlet of the blanking pipe is in an open state to supplement materials, the extrusion inclined plane also plays a role in guiding, the guide jacking part at the upper end of the swing connecting rod can smoothly and quickly slide into the arc-shaped groove surface, the downward pressing swing rod is ensured to smoothly fall, and the inner end of the downward pressing swing rod can be timely in pressure connection with the upper end of the pin column; when the flange of the cam leaves the end surface of the inner end of the connecting rod shaft, the connecting rod shaft moves inwards, the guide jacking part at the upper end of the swing connecting rod slides outwards to the arc groove surface, the inner end of the swing rod is pressed downwards to press the pin again under the action of the tension spring, the lower opening cover blocks the outlet at the lower end of the blanking pipe, and the outlet at the lower end of the blanking pipe is closed at the moment; the outlet at the lower end of the blanking pipe can be continuously opened or closed by reciprocating, thereby realizing the intermittent and quantitative feeding of the material cup.

Preferably, be equipped with a pair of articulated arm on the bowl cover, the supporting seat upper end is equipped with a pair of connection otic placode, the outer end of pushing down the pendulum rod is located between the connection otic placode, the tip of articulated arm is located the outside of connecting the otic placode, and the tip of articulated arm, the outer end of pushing down the pendulum rod are articulated through round pin axle and connection otic placode, and the clearance between the articulated arm forms dodges the mouth, the upper end of swing connecting rod is passed and is dodged the mouth.

Preferably, the inner end of the link shaft is provided with a roller which is in surface contact with the outer contour of the cam.

Preferably, the blanking pipe and the material cup are eccentrically arranged.

Preferably, the upper end edge of the blanking pipe is provided with a connecting flange, and the connecting flange is attached and fixed to the top surface of the cup cover.

Preferably, the cup cover is provided with a limiting block, the bottom surface of the downward pressing swing rod is provided with a limiting groove matched with the limiting block, and two ends of the tension spring are fastened on the limiting block and the downward pressing swing rod through screws respectively. The limiting block plays a limiting role, the situation that the push-down swing rod is directly collided with the cup cover to be damaged is avoided, and meanwhile the limiting block is used for connecting the tension spring.

Preferably, the bottom of the support seat is provided with a shaft sleeve, and the connecting rod shaft penetrates through the shaft sleeve and is in sliding fit with the shaft sleeve.

Preferably, a supporting column is fixed to the top of the mounting frame, the material cup is fixed to the supporting column and is rotatably connected with the supporting column, a driven gear is fixed to the supporting column, the upper end of the cam shaft penetrates through the mounting frame and is fixed with a driving gear, and the driving gear is meshed with the driven gear. Through the cooperation of driven gear and driving gear, alright drive simultaneously the material cup and rotate under the drive of camshaft, need not additionally to install again and drive material cup pivoted drive arrangement, be favorable to reducing installation space and reduce cost.

Preferably, a motor is fixed at the bottom of the mounting frame, and a motor shaft of the motor is connected with the cam shaft through a coupling.

Therefore, the utility model has the following beneficial effects: through the cooperation between lower flap, C type rocking arm, round pin post and the hold-down mechanism, make the lower extreme export of unloading pipe open automatically or closed to the realization is to the intermittent type ration feed supplement of material cup, compact structure not only, and the installation is convenient with the maintenance, and is with low costs moreover, and stability in use is good, is difficult for breaking down.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is an enlarged view at B in fig. 1.

Fig. 4 is an exploded view of fig. 1.

FIG. 5 is a schematic view showing a state in which the lower port cover abuts against the lower end outlet of the down tube.

Fig. 6 is a schematic view showing a state where the lower port cover is away from the lower end outlet of the down tube.

Fig. 7 is a perspective view of the cup.

In the figure: the feeding device comprises a feeding cup 1, a feeding pipe 2, a C-shaped rotating arm 3, a pin column 4, a cup cover 5, a lower opening cover 6, a mounting frame 7, a downward pressing swing rod 8, a cam shaft 9, a supporting seat 10, a tension spring 11, a swing connecting rod 12, a guide jacking part 13, an arc groove surface 14, an extrusion inclined surface 15, a cam 16, a connecting rod shaft 17, a hinged arm 18, a connecting lug plate 19, an avoiding opening 20, a roller 21, a connecting flanging 22, a limiting block 23, a limiting groove 24, a screw 25, a shaft sleeve 26, a supporting column 27, a driven gear 28, a driving gear 29, a motor 30 and a feeding hopper 31.

Detailed Description

The utility model is further described with reference to the following figures and detailed description.

The intermittent quantitative material supplementing control mechanism of the embroidery machine shown in figures 1, 2, 3 and 4 comprises a material cup 1, a discharging pipe 2, a C-shaped rotating arm 3 and a pin 4, wherein a cup cover 5 is arranged at an opening of the material cup, a connecting flanging 22 is fixed at the edge of the upper end of the discharging pipe, the connecting flanging is fixedly attached to the top surface of the cup cover, the discharging pipe penetrates through the cup cover and is eccentrically arranged with the material cup, the lower end of the discharging pipe is positioned in the material cup, a lower opening cover 6 is arranged below an outlet at the lower end of the discharging pipe, one end of the C-shaped rotating arm is fixedly connected with the lower opening cover, the other end of the C-shaped rotating arm is hinged with the discharging pipe, the pin penetrates through the cup cover and is in sliding fit with the cup cover, the lower end of the pin is in contact with the C-shaped rotating arm, a pressing mechanism capable of pressing or separating the pin is arranged on the lower end of the pin, the pressing mechanism comprises a mounting rack 7, a pressing swing rod 8 and a cam shaft 9, a support 27 is fixed at the top of the cup cover (shown in figure 7), the material cup is fixed on the support column and is rotationally connected with the support column, a driven gear 28 is fixed on the support column, a cam shaft penetrates through the mounting frame and is rotationally connected with the mounting frame, a cam 16 is fixed on the cam shaft, the upper end of the cam shaft penetrates through the mounting frame and is fixed with a driving gear 29, the driving gear is meshed with the driven gear, a motor 30 is fixed at the bottom of the mounting frame, a motor shaft of the motor is connected with the cam shaft through a coupler, a supporting seat 10 is fixed on one side of the mounting frame, a pair of hinged arms 18 are fixed on the cup cover, a pair of connecting lug plates 19 are fixed at the upper end of the supporting seat, the end parts of the hinged arms are positioned on the outer sides of the connecting lug plates, a downward pressing swing rod is positioned above the cup cover, the outer end parts of the downward pressing swing rod are positioned between the connecting lug plates, the end parts of the hinged arms and the outer ends of the downward pressing swing rod are hinged with the connecting lug plates through pin shafts, a gap between the hinged arms forms an avoiding opening 20, and the inner end of the downward swing rod can be in compression joint with the upper end of the pin column, one side of the downward-pressing swing rod is provided with a tension spring 11, a limiting block 23 is fixed on the cup cover, a limiting groove 24 matched with the limiting block is formed in the bottom surface of the downward-pressing swing rod, two ends of the tension spring are fastened on the limiting block and the downward-pressing swing rod respectively through screws 25, a swing connecting rod 12 is hinged in the middle of the supporting seat, the upper end of the swing connecting rod penetrates through the avoidance opening, the upper end of the swing connecting rod is bent to form a guide jacking portion 13, the profile surface of the guide jacking portion is set to be an arc surface, the bottom surface of the downward-pressing swing rod is provided with an arc groove surface 14, one section of the arc groove surface, which is close to the discharging pipe, is set to be an extrusion inclined surface 15, and the guide jacking portion is in contact with the arc groove surface and the extrusion inclined surface; the bottom of the supporting seat is fixed with a shaft sleeve 26, a connecting rod shaft 17 is arranged in the shaft sleeve, the connecting rod shaft is in sliding fit with the shaft sleeve, the inner end of the connecting rod shaft is fixed with a roller 21, the roller is in contact with the outer contour surface of the cam, the outer end of the connecting rod shaft is rotatably connected with the lower end of the swing connecting rod, when the inner end of the swing rod is pressed down to compress the pin, the lower end of the pin compresses the C-shaped rotating arm, the lower port cover supports the lower end outlet of the blanking tube to enable the lower end outlet of the blanking tube to be in a closed state, when the inner end of the swing rod is pressed down to be separated from the pin, the lower end of the pin releases the C-shaped rotating arm, and the lower port cover is separated from the lower end outlet of the blanking tube under the action of gravity to enable the lower end outlet of the blanking tube to be in an open state.

The operation process of the utility model is as follows: the lower part of the material supplementing hopper 31 is inserted on the discharging pipe, the cam shaft can rotate under the driving of the motor, the cam shaft drives the cam to synchronously rotate when rotating, the cam transmits the motion to the connecting rod shaft which is in contact with the cam shaft, so that the connecting rod shaft makes reciprocating linear motion, the swinging connecting rod swings back and forth, the guide jacking part can move back and forth along the arc-shaped groove surface and the extrusion inclined surface, and the lower pressing swing rod falls down or jacks up; when the flange of the cam rotates to be in contact with the roller, the connecting rod shaft moves outwards to the maximum displacement position, the guide jacking part at the upper end of the swing connecting rod slides inwards to the extrusion inclined plane and extrudes the extrusion inclined plane, so that the inner end of the lower pressing swing rod is jacked up and separated from the upper end of the pin, the lower end of the pin releases the C-shaped rotating arm, the C-shaped rotating arm rotates under the action of gravity (the gravity of the cover cap and the C-shaped rotating arm), the lower cover is separated from the lower end outlet of the blanking pipe, and the lower end outlet of the blanking pipe is opened for material supplement (as shown in figure 5); when the flange of the cam leaves the roller, the connecting rod moves axially inwards, the guide jacking part at the upper end of the swinging connecting rod slides outwards to the arc-shaped groove surface, the inner end of the swinging rod is pressed downwards to press the pin again under the action of the tension spring, the lower opening cover blocks the lower end outlet of the blanking pipe, and the lower end outlet of the blanking pipe is closed (as shown in fig. 6); the outlet at the lower end of the blanking pipe can be continuously opened or closed by reciprocating, thereby realizing the intermittent and quantitative feeding of the material cup.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the spirit of the utility model as set forth in the claims.

Claims (10)

1. The intermittent quantitative material supplementing control mechanism of the embroidery machine is characterized by comprising a material cup (1), a blanking pipe (2), a C-shaped rotating arm (3) and a pin column (4); a cup cover (5) is arranged at the opening of the material cup, and the material cup can rotate relative to the cup cover; the blanking pipe is fixed on the cup cover, a blanking cover (6) is arranged below a lower end outlet of the blanking pipe, one end of the C-shaped rotating arm is fixedly connected with the blanking cover, the other end of the C-shaped rotating arm is hinged to the blanking pipe, the pin column penetrates through the cup cover and is in sliding fit with the cup cover, the lower end of the pin column is in contact with the C-shaped rotating arm, a pressing mechanism capable of pressing or separating from the pin column is arranged on the cup cover, when the pressing mechanism presses the pin column, the lower end of the pin column presses the C-shaped rotating arm, the lower end outlet of the blanking pipe is supported by the blanking cover to enable the lower end outlet of the blanking pipe to be in a closed state, when the pressing mechanism is separated from the pin column, the lower end of the pin column loosens the C-shaped rotating arm, and the blanking cover leaves the lower end outlet of the blanking pipe under the action of gravity to enable the lower end outlet of the blanking pipe to be in an open state.

2. The intermittent quantitative feeding control mechanism of the embroidery machine according to claim 1, characterized in that the pressing mechanism comprises a mounting frame (7), a pressing swing rod (8) and a cam shaft (9); a supporting seat (10) is fixed on one side of the mounting frame, the downward pressing swing rod is positioned above the cup cover, the inner end of the downward pressing swing rod can be in press fit with the upper end of the pin column, the outer end of the downward pressing swing rod is hinged with the upper portion of the supporting seat, a tension spring (11) is arranged on one side of the downward pressing swing rod, and two ends of the tension spring are fixedly connected with the cup cover and the downward pressing swing rod respectively; a swing connecting rod (12) is hinged to the middle of the supporting seat, a guide jacking portion (13) is arranged at the upper end of the swing connecting rod, an arc-shaped groove surface (14) is arranged on the bottom surface of the downward pressing swing rod, a section of the arc-shaped groove surface, which is close to the blanking pipe, is set as an extrusion inclined surface (15), and the guide jacking portion is in contact with the arc-shaped groove surface and the extrusion inclined surface; the camshaft penetrates through the mounting frame and is rotatably connected with the mounting frame, and a cam (16) is arranged on the camshaft; the bottom of the supporting seat is connected with a connecting rod shaft (17) in a sliding mode, the end face of the inner end of the connecting rod shaft is in contact with the outer contour face of the cam, and the outer end of the connecting rod shaft is connected with the lower end of the swinging connecting rod in a rotating mode.

3. The embroidery machine intermittent quantitative material supplementing control mechanism as claimed in claim 2, wherein a pair of hinged arms (18) are arranged on the cup cover, a pair of connecting lug plates (19) are arranged at the upper end of the supporting seat, the outer ends of the downward pressing swing rods are positioned between the connecting lug plates, the ends of the hinged arms are positioned at the outer sides of the connecting lug plates, the ends of the hinged arms and the outer ends of the downward pressing swing rods are hinged with the connecting lug plates through pin shafts, a clearance between the hinged arms forms an avoiding opening (20), and the upper ends of the swing connecting rods pass through the avoiding opening.

4. An intermittent constant feed control mechanism of an embroidery machine according to claim 2, wherein the inner end of the link shaft is provided with a roller (21) which is in surface contact with the outer contour of the cam.

5. The intermittent quantitative feeding control mechanism of the embroidery machine as claimed in claim 1, wherein the feeding pipe is eccentrically arranged with respect to the cup.

6. The embroidery machine intermittent quantitative material supplementing control mechanism as claimed in claim 1 or 5, characterized in that the upper end edge of the feeding pipe is provided with a connecting flange (22), and the connecting flange is attached and fixed with the top surface of the cup cover.

7. The embroidery machine intermittent quantitative material supplementing control mechanism as claimed in claim 2, wherein the cup cover is provided with a limit block (23), the bottom surface of the downward pressing swing rod is provided with a limit groove (24) matched with the limit block, and two ends of the tension spring are fastened on the limit block and the downward pressing swing rod respectively through screws (25).

8. An intermittent and quantitative feeding control mechanism of an embroidery machine as claimed in claim 2, wherein the bottom of the supporting seat is provided with a shaft sleeve (26), and the connecting rod shaft passes through the shaft sleeve and is in sliding fit with the shaft sleeve.

9. An intermittent quantitative feeding control mechanism of an embroidery machine as claimed in claim 2, characterized in that a support column (27) is fixed on the top of the mounting frame, the material cup is fixed on the support column and is rotatably connected with the support column, a driven gear (28) is fixed on the support column, the upper end of the cam shaft passes through the mounting frame and is fixed with a driving gear (29), and the driving gear is meshed with the driven gear.

10. The embroidery machine intermittent and quantitative feeding control mechanism as claimed in claim 9, wherein a motor (30) is fixed to the bottom of the mounting frame, and a motor shaft of the motor is connected with a cam shaft through a coupling.

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