CN102489982B

CN102489982B - Ring inserting machine

Info

Publication number: CN102489982B
Application number: CN 201110420860
Authority: CN
Inventors: 黄英哲
Original assignee: CIXI RUIQI PLASTIC Co Ltd
Current assignee: CIXI RUIQI PLASTIC CO., LTD.
Priority date: 2011-11-30
Filing date: 2011-11-30
Publication date: 2013-09-18
Anticipated expiration: 2031-11-30
Also published as: CN102489982A

Abstract

The invention relates to a ring inserting machine, which comprises a shell, a base, a sleeve ring hole bushing control group, a sleeve ring shaft sleeve control group, a main cylinder, a small cylinder and a controller. The shell and the small cylinder are arranged on the base, a main cylinder fixing plate is arranged on the shell, the main cylinder is arranged on the main cylinder fixing plate, the sleeve ring hole bushing control group is connected with the main cylinder, the sleeve ring shaft sleeve control group is connected with the small cylinder, and the main cylinder and the small cylinder are electrically connected with the controller. The ring inserting machine is simple in structure, convenient in operation, wide in applicable range and high in working efficiency.

Description

A kind of ring inserter

Technical field

The present invention relates to a kind of ring inserter.

Background technology

Common hand wears the ring inefficiency in the market, though using collar rifle can raise the efficiency, but certain limitation is arranged, in the face of the article in thicker cross section such as the pull bar of luggage case etc., in the time of need to overlapping the collar in the above, the rifle mouth opening of collar rifle is large not, can't finish smoothly collar operation, and workman's hand is easy to fatigue when using collar rifle.

Summary of the invention

The invention provides a kind of ring inserter of simple in structure, easy to operate, widely applicable, high efficiency.

The present invention is achieved through the following technical solutions:

A kind of ring inserter, comprise shell, base, collar borehole jack control group, collar axle sleeve control group, master cylinder, little cylinder and controller, described shell is located on the base, described little cylinder is located on the base, described shell is provided with the master cylinder fixed head, and described master cylinder is located on the master cylinder fixed head, and described collar borehole jack control group is connected with master cylinder, described collar axle sleeve control group is connected with little cylinder, and described master cylinder and little cylinder are electrically connected with controller.

Described collar borehole jack control group comprises the borehole jack slide rail, slide, the borehole jack anchor clamps, overhead cam, upper active hook, the upper feeding wheel, upper driving wheel, the borehole jack rail bracket, cutting knife and upper retreat stop block, described slide is connected with master cylinder by the slide contiguous block, described slide is located in the borehole jack slide rail, described borehole jack slide rail is fixed on the shell, described borehole jack anchor clamps are connected with the slide contiguous block, described borehole jack anchor clamps are provided with uploads motion block, described overhead cam is rotationally connected by bearing and shell, described upper active hook and overhead cam are rotationally connected, and be connected with shell by upper active hook control screw, described upper feeding wheel and the coaxial setting of upper driving wheel, and be rotationally connected by bearing and shell, described borehole jack rail bracket is fixed on the shell, described cutting knife is fixed on the borehole jack rail bracket, described upper retreat stop block is rotationally connected by bearing and shell, described shell is provided with the retaining brake block, and contact with described upper retreat stop block, described overhead cam top is provided with the upper limit support, described upper limit support is fixed on the shell, described upper limit support is provided with the upper limit screw, described overhead cam, upper active hook, upper retreat stop block and borehole jack slide rail are provided with the spring supporting screw, by spring overhead cam is connected with upper retreat stop block, by spring upper active hook is connected with the borehole jack slide rail, described bearing is fixed on the shell by the bearing shaft screw.

Described collar axle sleeve control group comprises the axle sleeve slide rail, eedle, thimble, lower cam, lower active hook, the lower feeding wheel, lower driving wheel and lower retreat stop block, described axle sleeve slide rail is fixed on the shell, described eedle is fixed on the axle sleeve slide rail by pintle, described axle sleeve slide rail is provided with the eedle hole, described eedle is connected with the eedle hole, described thimble is located in the described eedle hole, described axle sleeve slide rail is provided with the underdrive piece, described underdrive piece lower end is connected with little cylinder, the upper end contacts with thimble, described lower cam is rotationally connected by bearing and shell, described lower active hook and lower cam are rotationally connected, and be connected with shell by lower active hook control screw, described lower feeding wheel and the coaxial setting of lower driving wheel, and be rotationally connected by bearing and shell, described lower retreat stop block is rotationally connected by bearing and shell, described lower cam top is provided with the lower limit support, described lower limit support is fixed on the shell, described lower limit support is provided with the lower limit screw, described lower cam, lower active hook, lower retreat stop block and axle sleeve slide rail are provided with the spring supporting screw, by spring lower cam is connected with lower retreat stop block, by spring lower active hook is connected with the axle sleeve slide rail, described bearing is fixed on the shell by the bearing shaft screw.

Described shell comprises left plate, right plate, front side board and back side panel.

Described controller is pedal.

The beneficial effect that the present invention brings is:

Among the present invention, described ring inserter comprises shell, base, collar borehole jack control group, collar axle sleeve control group, master cylinder, little cylinder and controller, described base is used for fixing little cylinder, and make whole ring inserter more firm, the borehole jack that described collar borehole jack control group is used for the control collar moves downward, and arrive smoothly and the axle sleeve place that socket-connects, described collar axle sleeve control group moves upward the axle sleeve of the collar, arrive smoothly default position, socket-connect with borehole jack, described master cylinder is used for actuating sleeve annular distance cover control group and moves downward, described little cylinder is used for actuating sleeve annulate shaft cover control group and moves upward, and described controller is used for control control master cylinder and little cylinder operation; Described controller is pedal, and workman's both hands need to be used for be placed the object that need the collar, and is then with the work of pedal control ring inserter, relatively convenient, and trick is used in conjunction with, and operating efficiency is improved greatly.

Description of drawings

Below in conjunction with accompanying drawing the present invention is described in further detail.

Fig. 1 is the structural representation of ring inserter of the present invention;

Fig. 2 is the front view of collar borehole jack control group of the present invention;

Fig. 3 is the structural representation of collar borehole jack control group of the present invention;

Fig. 4 is the front view of collar axle sleeve control group of the present invention;

Fig. 5 is the structural representation of collar axle sleeve control group of the present invention.

The label that component names is corresponding among the figure is as follows:

1, master cylinder; 2, master cylinder fixed head; 3, collar borehole jack control group; 4, left plate; 5, collar axle sleeve control group; 6, base; 7, back side panel; 8, little cylinder; 9, upload motion block; 10, borehole jack anchor clamps; 11, upper limit support; 12, upper limit screw; 13, overhead cam; 14, upper active hook; 15, upper feeding wheel; 16, upper driving wheel; 17, cutting knife; 18, borehole jack rail bracket; 19, borehole jack slide rail; 20, spring; 21, bearing; 22, upper retreat stop block; 23, retaining brake block; 24, slide; 25, slide contiguous block; 26, spring supporting screw; 27, upper active hook control screw; 28, bearing shaft screw; 29, eedle; 30, pintle; 31, axle sleeve slide rail; 32, lower feeding wheel; 33, lower driving wheel; 34, lower active hook; 35, lower cam; 36, eedle hole; 37, groove; 38, lower retreat stop block; 39, lower active hook control screw; 40, underdrive piece; 41, lower limit support; 42, lower limit screw; 43, thimble.

The specific embodiment

The present invention is described in further detail below in conjunction with drawings and Examples:

Embodiment as ring inserter of the present invention, such as Fig. 1, Fig. 2, Fig. 3, Fig. 4 and shown in Figure 5, comprise shell, base 6, collar borehole jack control group 3, collar axle sleeve control group 5, master cylinder 1, stingy cylinder 8 and controller, described shell is located on the base 6, described stingy cylinder 8 is located on the base 6, described shell is provided with master cylinder fixed head 2, described master cylinder 1 is located on the master cylinder fixed head 2, described collar borehole jack control group 3 is connected with master cylinder 1, described collar axle sleeve control group 5 is connected with stingy cylinder 8, and described master cylinder 1 and stingy cylinder 8 are electrically connected with controller.

In the present embodiment, described collar borehole jack control group 3 comprises borehole jack slide rail 19, slide 24, borehole jack anchor clamps 10, overhead cam 13, upper active hook 14, upper feeding wheel 15, upper driving wheel 16, borehole jack rail bracket 18, cutting knife 17 and upper retreat stop block 22, described slide 24 is connected with master cylinder 1 by slide contiguous block 25, described slide 24 is located in the borehole jack slide rail 19, described borehole jack slide rail 19 is fixed on the shell, described borehole jack anchor clamps 10 are connected with slide contiguous block 25, described borehole jack anchor clamps 10 are provided with uploads motion block 9, described overhead cam 13 is rotationally connected by bearing 21 and shell, described upper active hook 14 is rotationally connected with overhead cam 13, and be connected with shell by upper active hook control screw 27, described upper feeding wheel 15 and upper driving wheel 16 coaxial settings, and be rotationally connected by bearing 21 and shell, described borehole jack rail bracket 18 is fixed on the shell, described cutting knife 17 is fixed on the borehole jack rail bracket 18, described upper retreat stop block 22 is rotationally connected by bearing 21 and shell, described shell is provided with retaining brake block 23, and contact with described upper retreat stop block 22, described overhead cam 13 tops are provided with upper limit support 11, described upper limit support 11 is fixed on the shell, described upper limit support 11 is provided with upper limit screw 12, described overhead cam 13, upper active hook 14, upper retreat stop block 22 and borehole jack slide rail 19 are provided with spring supporting screw 26, by spring 20 overhead cam 13 is connected with upper retreat stop block 22, by spring 20 upper active hook 14 is connected with borehole jack slide rail 19, described bearing 21 is fixed on the shell by bearing shaft screw 28.Described master cylinder 1 ejects, make and upload motion block 9, borehole jack anchor clamps 10, retaining brake block 23 and down move along borehole jack slide rail 19, manned collar borehole jack is in next same down motion of drive of borehole jack anchor clamps 10, at this moment, described cutting knife 17 will cut off the line of borehole jack and collar mobile jib, and borehole jack is separated with the collar, when master cylinder 1 stroke is gone to end, the described motion block 9 of uploading bumps with overhead cam 13, and overhead cam 13 is swayed, and described upper active hook 14 slides into upper driving wheel 16 next tooth position.Master cylinder 1 stroke is covered, and borehole jack drops on the eedle 29, and aligns with the eedle hole 36 of eedle 29.At this moment, collar axle sleeve control group 5 ejects the axle sleeve of separating from the collar in eedle 29 holes, axle sleeve is inserted in the borehole jack and with ring inserter throw off, and finishes the task of being locked.Master cylinder 1 retraction resets, simultaneously, overhead cam 13 is back rotation under spring 20 pulling force ground effects, the moving upper driving wheel 16 of described upper active hook 14 hooks and upper feeding wheel 15 rotate, when turning over a tooth position, described upper limit screw 12 blocks overhead cam 13, stops it to be rotated further, and prevents that upper feeding from taking turns 15 feedings excessive.After master cylinder 1 resetted fully, the collar was taken turns under the 15 elastic force ground effects in upper feeding and is entered in the screens of borehole jack anchor clamps 10, for lower task is got ready.

In the present embodiment, described collar axle sleeve control group 5 comprises axle sleeve slide rail 31, eedle 29, thimble 43, lower cam 35, lower active hook 34, lower feeding wheel 32, lower driving wheel 33 and lower retreat stop block 38, described axle sleeve slide rail 31 is fixed on the shell, described eedle 29 is fixed on the axle sleeve slide rail 31 by pintle 30, described axle sleeve slide rail 31 is provided with eedle hole 36, described eedle 29 is connected with eedle hole 36, described thimble 43 is located in the described eedle hole 36, described axle sleeve slide rail 31 is provided with underdrive piece 40, described underdrive piece 40 lower ends are connected with stingy cylinder 8, the upper end contacts with thimble 43, described lower cam 35 is rotationally connected by bearing 21 and shell, described lower active hook 34 is rotationally connected with lower cam 35, and be connected with shell by lower active hook control screw 39, described lower feeding wheel 32 and lower driving wheel 33 coaxial settings, and be rotationally connected by bearing 21 and shell, described lower retreat stop block 38 is rotationally connected by bearing 21 and shell, described lower cam 35 tops are provided with lower limit support 41, described lower limit support 41 is fixed on the shell, described lower limit support 41 is provided with lower limit screw 42, described lower cam 35, lower active hook 34, lower retreat stop block 38 and axle sleeve slide rail 31 are provided with spring supporting screw 26, by spring 20 lower cam 35 is connected with lower retreat stop block 38, by spring 20 lower active hook 34 is connected with axle sleeve slide rail 31, described bearing 21 is fixed on the shell by bearing shaft screw 28.When described collar borehole jack control group 3 was delivered to borehole jack on the eedle 29, collar axle sleeve control group 5 was started working, and described stingy cylinder 8 ejects, and promoted underdrive piece 40 and thimble 43 and up moved, and thimble 43 pushes up axle sleeve in borehole jack along eedle hole 36.Described underdrive piece 40 bumps at stingy cylinder 8 end of travels and lower cam 35, makes its rotation and drives next tooth position that lower active hook 34 slides into lower driving wheel 33.Described stingy cylinder 8 retractions, because spring 20 ground effects, gyration occurs in lower cam 35, make the moving lower driving wheel 33 of lower active hook 34 hooks and lower feeding wheel 32, rotate, when its anglec of rotation reaches a tooth position, described lower limit screw 42 blocks lower cam 35, prevents that feeding is excessive.When stingy cylinder 8 resetted fully, next axle sleeve feeding was finished, and can directly carry out lower task.

In the present embodiment, described shell comprises left plate 4, right plate (not shown), front side board (not shown) and back side panel 7.

In the present embodiment, described controller is the pedal (not shown).

The operating process of ring inserter is such: the end with collar band borehole jack is inserted in the borehole jack rail bracket 18 first, one end of cover girdle axis cover is inserted in the axle sleeve slide rail 31, then open power supply, to need again the object of the collar to be placed on groove 37 places, place appropriate after, light step pedal, the collar is finished smoothly, at last, the object taking-up that packages ring is got final product.

Claims

1. ring inserter, it is characterized in that comprising shell, base, collar borehole jack control group, collar axle sleeve control group, master cylinder, little cylinder and controller, described shell is located on the base, described little cylinder is located on the base, described shell is provided with the master cylinder fixed head, described master cylinder is located on the master cylinder fixed head, described collar borehole jack control group is connected with master cylinder, described collar axle sleeve control group is connected with little cylinder, described master cylinder and little cylinder are electrically connected with controller, described collar borehole jack control group comprises the borehole jack slide rail, slide, the borehole jack anchor clamps, overhead cam, upper active hook, the upper feeding wheel, upper driving wheel, the borehole jack rail bracket, cutting knife and upper retreat stop block, described slide is connected with master cylinder by the slide contiguous block, described slide is located in the borehole jack slide rail, described borehole jack slide rail is fixed on the shell, described borehole jack anchor clamps are connected with the slide contiguous block, described borehole jack anchor clamps are provided with uploads motion block, described overhead cam is rotationally connected by bearing and shell, described upper active hook and overhead cam are rotationally connected, and be connected with shell by upper active hook control screw, described upper feeding wheel and the coaxial setting of upper driving wheel, and be rotationally connected by bearing and shell, described borehole jack rail bracket is fixed on the shell, described cutting knife is fixed on the borehole jack rail bracket, described upper retreat stop block is rotationally connected by bearing and shell, described shell is provided with the retaining brake block, and contact with described upper retreat stop block, described overhead cam top is provided with the upper limit support, described upper limit support is fixed on the shell, described upper limit support is provided with the upper limit screw, described overhead cam, upper active hook, upper retreat stop block and borehole jack slide rail are provided with the spring supporting screw, by spring overhead cam is connected with upper retreat stop block, by spring upper active hook is connected with the borehole jack slide rail, described bearing is fixed on the shell by the bearing shaft screw, described collar axle sleeve control group comprises the axle sleeve slide rail, eedle, thimble, lower cam, lower active hook, the lower feeding wheel, lower driving wheel and lower retreat stop block, described axle sleeve slide rail is fixed on the shell, described eedle is fixed on the axle sleeve slide rail by pintle, described axle sleeve slide rail is provided with the eedle hole, described eedle is connected with the eedle hole, described thimble is located in the described eedle hole, described axle sleeve slide rail is provided with the underdrive piece, described underdrive piece lower end is connected with little cylinder, the upper end contacts with thimble, described lower cam is rotationally connected by bearing and shell, described lower active hook and lower cam are rotationally connected, and be connected with shell by lower active hook control screw, described lower feeding wheel and the coaxial setting of lower driving wheel, and be rotationally connected by bearing and shell, described lower retreat stop block is rotationally connected by bearing and shell, described lower cam top is provided with the lower limit support, described lower limit support is fixed on the shell, described lower limit support is provided with the lower limit screw, described lower cam, lower active hook, lower retreat stop block and axle sleeve slide rail are provided with the spring supporting screw, by spring lower cam is connected with lower retreat stop block, by spring lower active hook is connected with the axle sleeve slide rail, described bearing is fixed on the shell by the bearing shaft screw.

2. ring inserter as claimed in claim 1 is characterized in that described shell comprises left plate, right plate, front side board and back side panel.

3. ring inserter as claimed in claim 1 is characterized in that described controller is pedal.