CN218580211U - Double-handpiece glove knitting machine - Google Patents

Abstract

The utility model discloses a double-head glove knitting machine, which comprises a double-servo transmission mechanism for driving a left head and a right head to do synchronous motion respectively along a left needle bed and a right needle bed, a main scissors moving device for driving a left main scissors device and a right main scissors device to do left-right synchronous motion, a low-fork scissors moving device for driving a right low-fork scissors device and a left low-fork scissors device to do left-right synchronous motion, and a left and a right integral beating machines are correspondingly arranged at a left glove falling position and a right glove falling position; the double-head glove knitting machine has the advantages that synchronous knitting of double heads, synchronous scissors bifurcation and synchronous glove receiving, placing and conveying of the double-integral-beating machine are guaranteed, production cost is saved, space for arranging equipment is reduced, and automation degree of the equipment is improved.

Description

Double-handpiece glove knitting machine

Technical Field

The utility model relates to a technical field of glove knitting machine, particularly, duplex head gloves braider.

Background

The common computer glove knitting machine generally carries out knitting by a single machine head, along with the progress of society and the development of science and technology, the requirements of people on the glove knitting machine are higher and higher, the glove knitting machine is expected to have good quality and low price, because the double-machine-head glove knitting machine can save cost and reduce the space for arranging machines, production enterprises which are reluctant to change the current situation are carrying out research and development and continuous improvement on the double-machine-head glove knitting machine, and a reasonable mechanical structure of the double-machine-head glove knitting machine is very important for being matched with an electric control unit.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a duplex head glove knitting machine that can carry out duplex head and weave in step, synchronous scissors branch and two whole machines of beating connect in step and put, carry gloves.

In order to solve the technical problem, the utility model provides a duplex head gloves braider, including the disjunctor frame, the top of disjunctor frame is provided with two servo drive mechanism of matched with and two scissors mechanism, two servo drive mechanism drive left aircraft nose and right aircraft nose are along left needle bed and right needle bed respectively and are done synchronous reciprocating motion, two scissors mechanism includes main scissors mobile device and low fork scissors mobile device, synchronous translation about main scissors mobile device drive left side main scissors device and right side main scissors device do, and main scissors mobile device is connected with left main scissors device, low fork scissors mobile device drive left side low fork scissors device and right side low fork scissors device do synchronous translation about, and low fork scissors mobile device is connected with right low fork scissors device, the left side of disjunctor right side gloves department of falling at the middle part of disjunctor frame still is provided with left whole machine of beating and right whole machine of beating respectively, left side whole machine of beating and right whole machine of beating are the symmetry setting.

According to the utility model discloses preferred an embodiment, the top of disjunctor frame still is provided with evenly distributed's left sharp scute, well sharp scute and right sharp scute.

According to the utility model discloses a preferred embodiment, be provided with front left rotating shaft and left back axis of rotation between left side sharp scute and the well sharp scute, left side owner scissors device and left low fork scissors device remove respectively and set up in front left rotating shaft and left back axis of rotation.

According to the utility model discloses a preferred embodiment, double shear mechanism still includes left scissors controlling means, left scissors controlling means controls left main scissors device and left low fork scissors device respectively through left back axis of rotation and left front axis of rotation.

According to the utility model discloses a preferred embodiment, be provided with right front axis of rotation and right back axis of rotation between center point scute and the right point scute, right side main scissors device and right side low fork scissors device remove respectively and set up in right front axis of rotation and right back axis of rotation.

According to the utility model discloses a preferred embodiment, two scissors mechanism still includes right scissors controlling means, right scissors controlling means controls right main scissors device and the low scissors device of right side respectively through right back axis of rotation and right front axis of rotation.

According to the utility model discloses a preferred embodiment, the braider still includes main scissors connecting rod, main scissors connecting rod sets up respectively in left main scissors device and right main scissors device through left back connecting block and right back connecting block.

According to the utility model discloses a preferred embodiment, braider still includes low fork scissors connecting rod, low fork scissors connecting rod sets up respectively in low fork scissors device of a left side and low fork scissors device of the right side through connecting block before left side and the connecting block before the right side.

According to the utility model discloses a preferred embodiment, the whole machine of beating in a left side includes that the left hand cover that matches the connection connects automatic pick-and-place mechanism, left hand cover conveyor and left hand cover rib top closing device.

According to the utility model discloses a preferred embodiment, the right side is put the machine and is included the automatic jack mechanism, right gloves conveyor and the right gloves rib top closing device that connect that cooperate in order.

The technical effects of the utility model reside in that:

1. the utility model relates to a duplex head gloves braider through main scissors mobile device and low fork scissors mobile device, can realize the synchronous branching of the ordinary five fingers of duplex head gloves braider or low fork five fingers, has reduced the manufacturing cost of equipment, has improved the automatic control level of equipment.

2. The utility model relates to a duplex head gloves braider through two servo drive mechanism synchronous drive left and right aircraft noses for left and right aircraft nose can weave left and right gloves simultaneously with the cooperation of all the other mechanisms, has reduced the manufacturing cost of equipment, has improved the economic benefits of equipment.

3. The utility model relates to a duplex head gloves braider through setting up left and right whole machine of beating, and it is left and right symmetry setting, has both shortened the length of equipment, can connect in step again left and right and put and carry gloves, has reduced the manufacturing cost of equipment, has improved the automatic control level of equipment.

Drawings

Fig. 1 is a three-dimensional assembly view of the double-head glove knitting machine of the utility model;

fig. 2 is an exploded view of a double-scissor mechanism of a double-handpiece glove knitting machine of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is an assembly view of the double-shear mechanism of the double-head glove knitting machine of the utility model;

fig. 5 is a schematic structural view of a double-integral-beating machine of the double-head glove knitting machine of the present invention;

fig. 6 is a working schematic diagram of the double-handpiece glove knitting machine of the present invention.

Reference numerals are as follows: 1-a double connected frame; 2-double servo transmission mechanism; 3-right machine head; 4-right needle bed; 5-left machine head; 6-left needle bed; 7-a double-shear mechanism; 71-a main scissor mover; 72-left scissor control; 73-left main scissor means; 74-left rear rotating shaft; 75-left rear connecting block; 76-main scissors connecting rod; 77-left low-fork scissor arrangement; 78-left front connecting block; 710-right rear connecting block; 711-right rear rotating shaft; 712-right low-fork scissor arrangement; 713-right front connector block; 715-low-fork scissor moving device; 716-low-fork scissor connecting rod; 717-right front rotating shaft; 718-a right main scissor arrangement; 719-right scissor control; 720-front left rotary shaft; 8-left finishing and beating machine; 81-sleeving a screw mouth pressing device with a left hand; 82-left-handed jacket conveying device; 83-left hand sleeve automatic receiving and placing mechanism; 9-right finishing and beating machine; 91-right glove rib top pressing device; 92-a right glove conveying device; 93-automatic right glove receiving and placing mechanism; 10-right corner plate; 11-a medium-sharp corner plate; 12-left corner plate; 13-left glove; 14-right glove.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not limited to the present invention.

As shown in fig. 1 to 6, a double-head glove knitting machine comprises a double-connected frame 1, a double servo transmission mechanism 2 and a double-scissor mechanism 7 which are matched with each other are arranged at the top of the double-connected frame 1, the double servo transmission mechanism 2 drives a left head 5 and a right head 3 to synchronously reciprocate along a left needle bed 6 and a right needle bed 4 respectively, the double-scissor mechanism 7 comprises a main scissor moving device 71 and a low-fork scissor moving device 715, the main scissor moving device 71 drives a left main scissor device 73 and a right main scissor device 718 to synchronously move left and right, the main scissor moving device 71 is connected with the left main scissor device 73, the low-fork scissor moving device 715 drives a left low-fork scissor device 77 and a right low-fork scissor device 712 to synchronously move left and right, the low-fork scissor moving device 715 is connected with the right low-fork scissor device 712, a left glove and a right glove in the middle of the double-connected frame 1 are respectively provided with a left finishing machine 8 and a right finishing machine 9, and the left finishing machine 8 and the right finishing machine 9 are symmetrically arranged.

As shown in fig. 1 to 5, the utility model relates to a duplex head glove knitting machine, it is including setting up respectively in double rack 1, go up left side, go up the well sharp scute 11 of right position, left sharp scute 12, right sharp scute 10, still including driving left aircraft nose 5, right aircraft nose 3 is respectively along left needle bed 6, right needle bed 4 makes synchronous motion's two servo drive mechanism 2, drive left main scissors device 73, right main scissors device 718 does left and right synchronous motion's main scissors mobile device 71, drive right low fork scissors device 712, left low fork scissors device 77 does left and right synchronous motion's low fork scissors mobile device 715, correspond in left and right glove that falls department and set up left finisher 8, right finisher 9.

Specifically, the main scissor moving device 71, the left scissor control device 72, the left main scissor device 73, the left low-fork scissor device 77, the right scissor control device 719, the right main scissor device 718, the right low-fork scissor device 712, and the low-fork scissor moving device 715 mainly constitute a double-scissor mechanism.

Specifically, the front left rotary shaft 720 and the rear left rotary shaft 74 are provided between the center gusset 11 and the left gusset 12, and the front left main scissor device 73 and the lower left scissor device 77 are movably provided on the front left rotary shaft 720 and the rear left rotary shaft 74, respectively.

Specifically, the main scissor link 76 is provided to the left main scissor device 73 and the right main scissor device 718 through the left rear link block 75 and the right rear link block 710, respectively, and the main scissor moving device 71 is connected to the left main scissor device 73.

Specifically, the right front turning shaft 717 and the right rear turning shaft 711 are provided between the center gusset 11 and the right gusset 10, and the right main scissor mechanism 718 and the right low-fork scissor mechanism 712 are movably provided on the right front turning shaft 717 and the right rear turning shaft 711, respectively.

Specifically, the low-fork scissor connecting rod 716 is respectively disposed on the left low-fork scissor device 77 and the right low-fork scissor device 712 through the left front connecting block 78 and the right front connecting block 713, and the low-fork scissor moving device 715 is connected to the right low-fork scissor device 712.

Specifically, the left scissor control device 72 controls the left main scissor device 73 and the left low-fork scissor device 77 via the left rear rotating shaft 74 and the left front rotating shaft 720, respectively, and the right scissor control device 719 controls the right main scissor device 718 and the right low-fork scissor device 712 via the right rear rotating shaft 711 and the right front rotating shaft 717, respectively.

Specifically, the left finishing machine 8 comprises a left glove rib opening pressing device 81, a left glove conveying device 82 and a left glove automatic receiving and placing mechanism 83; the right finishing and beating machine 9 comprises a right glove rib mouth pressing device 91, a right glove conveying device 92 and a right glove automatic receiving and placing mechanism 93.

Specifically, the left finishing machine 8 and the right finishing machine 9 are symmetrically arranged left and right.

The working principle of the double-handpiece glove knitting machine is as follows: referring to fig. 6, the double servo transmission mechanism 2 drives the left machine head 5 and the right machine head 3 to reciprocate left and right along the left needle bed 6 and the right needle bed 4 respectively and participate in synchronous knitting, when gloves need to be forked, the double-scissors mechanism 7 and the double-fork-knife transmission mechanism are matched to realize, when the left machine head 5 and the right machine head 3 reach the preset flow of knitting left and right gloves, the left glove automatic receiving and placing mechanism 83 of the left finishing machine 8 and the right glove automatic receiving and placing mechanism 93 of the right finishing machine 9 respectively drive the receiving and placing devices to move vertically upwards at the same time, the left glove 13 and the right glove 14 are clamped respectively in three steps, then the receiving and placing devices descend simultaneously, then the rotating devices of the left glove automatic receiving and placing mechanism 83 and the right glove automatic receiving and placing mechanism 93 synchronously rotate at the same angle, then, the receiving and placing device and the left glove 13 and the right glove 14 clamped by the receiving and placing device are driven to the corresponding left glove conveying device 82 and right glove conveying device 92, then the left glove rib mouth pressing device 81 and the right glove rib mouth pressing device 91 respectively press rib mouths of the left glove 13 and the right glove 14, then the double-head glove knitting machine finishes knitting and integral beating of double single gloves, the process is repeated until the integral beating number reaches a preset number, such as 24 gloves, and then the left glove conveying device 82 and the right glove conveying device 92 respectively convey the integrally beaten gloves in a back direction until a new glove pile can be beaten in the original position.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. The double-head glove knitting machine is characterized by comprising a double-connected rack, wherein a double-servo transmission mechanism and a double-shear mechanism which are matched with each other are arranged at the top of the double-connected rack, the double-servo transmission mechanism drives a left machine head and a right machine head to synchronously reciprocate along a left needle bed and a right needle bed respectively, the double-shear mechanism comprises a main shear moving device and a low-fork shear moving device, the main shear moving device drives a left main shear device and a right main shear device to synchronously move left and right, the main shear moving device is connected with the left main shear device, the low-fork shear moving device drives a left low-fork shear device and a right low-fork shear device to synchronously move left and right, the low-fork shear moving device is connected with the right low-fork shear device, a left trimming machine and a right trimming machine are arranged at the left glove falling position and the right glove falling position in the middle of the double-connected rack respectively, and the left trimming machine and the right trimming machine are symmetrically arranged.

2. The double-handpiece glove knitting machine according to claim 1, characterized in that the top of the double-connected frame is further provided with a left sharp corner plate, a middle sharp corner plate and a right sharp corner plate which are uniformly distributed.

3. The double-head glove knitting machine according to claim 2, characterized in that a left front rotating shaft and a left rear rotating shaft are arranged between the left corner plate and the middle corner plate, and the left main scissor device and the left low-fork scissor device are movably arranged on the left front rotating shaft and the left rear rotating shaft respectively.

4. The double-head glove knitting machine according to claim 3, characterized in that the double-scissors mechanism further comprises a left scissors control device, and the left scissors control device controls the left main scissors device and the left low-fork scissors device through the left rear rotating shaft and the left front rotating shaft, respectively.

5. The double-head glove knitting machine as claimed in claim 2, wherein a right front rotating shaft and a right rear rotating shaft are disposed between the center gusset and the right gusset, and the right main scissors device and the right low-fork scissors device are movably disposed on the right front rotating shaft and the right rear rotating shaft, respectively.

6. The duplex glove knitting machine as in claim 5, wherein the double-scissor mechanism further comprises a right scissor control device, the right scissor control device controlling the right main scissor device and the right low-fork scissor device through the right rear rotating shaft and the right front rotating shaft, respectively.

7. The dual-handpiece glove knitting machine as in claim 1 further comprising a main scissor linkage rod disposed to the left main scissor arrangement and the right main scissor arrangement through the left rear linkage block and the right rear linkage block, respectively.

8. The double-head glove knitting machine according to claim 1, further comprising a low-forked scissor linkage rod that is disposed between the left low-forked scissor device and the right low-forked scissor device via a left front linkage block and a right front linkage block, respectively.

9. The double-head glove knitting machine according to claim 1, characterized in that the left finisher includes a left-hand glove automatic pick-and-place mechanism, a left-hand glove conveying device and a left-hand glove rib mouth pressing device which are cooperatively connected.

10. The double-head glove knitting machine according to claim 1, wherein the right finisher comprises a right glove automatic pick-and-place mechanism, a right glove conveying device and a right glove rib mouth pressing device which are matched and connected.

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