CN205093689U - High device of manual regulation shoe tree - Google Patents

Abstract

The utility model discloses a high device of manual regulation shoe tree, cylinder box including vertical setting, the center of box sets up the axis of rotation, axis of rotation upper portion installation threaded rod, threaded rod top installation shoe tree, the bottom fixed mounting sphere sheave of axis of rotation, sheave dish meshing that sphere sheave and a level set up, the sheave dish is installed in the driving shaft end, the driving shaft passes the setting of box level, the other end installation hand (hold) of driving shaft, the dog is installed at the bottom half to the axis of rotation pin joint on the threaded rod, the semicircle piece at dog both ends slides from top to bottom at the dog inslot of box, so, rotating the hand (hold) round and can making rotatory 90 degrees of rotation arbor wheel, owing to the axis of rotation can only can not vertically move in the rotation, and the threaded rod of spiro union can only can not rotate because of the effect that receives the dog in vertical removal with it, and consequently, the ascending removal of vertical side can only be done to the threaded rod, is minor removal in addition, threaded rod top installation shoe tree, so reach the mesh of fine setting shoe tree height.

Description

A kind of manual adjustments shoe tree height devices

Technical field:

The utility model relates to technical field of shoe making, in particular to a kind of manual adjustments shoe tree height devices.

Background technology:

Application number be 201410523991.1 utility model application disclose a kind of production pipeline of shoe making apparatus, comprise conveyer belt, described conveyer belt be arranged in parallel row's footwear body rack, described footwear body rack is made up of the drive motors fixed on a moving belt, the tubing string cover be connected with drive motors rotating shaft, the adjusting rod be connected with tubing string set upper side pore, the shoe tree that is arranged on adjusting rod upper end, described adjusting rod upper end arranges connecting thread hole, and described shoe tree bottom arranges the threaded shank spun with connecting thread hole.The shoe tree of this utility model placement footwear body can carry out the adjustment of angle and height, facilitate the processing of footwear body different angles, and shoe tree can be changed according to dissimilar and footwear body that is size, conveniently processes and improves operating efficiency.

The height and position of shoe tree is very large to the quality influence of processing shoes, needs the height and position of fine adjustment shoe tree at this, and in above-mentioned utility model and the mechanism that regulates of undeclared shoe tree height.

Utility model content:

The technical problem that the utility model solves: the production pipeline of shoe making apparatus of the prior art, the how height of fine adjustment shoe tree.

The utility model provides following technical scheme:

A kind of manual adjustments shoe tree height devices, comprise the cylindrical box vertically arranged, the center of described casing arranges turning cylinder, threaded rod is installed on described turning cylinder top, described turning cylinder and threaded rod are spirally connected, and shoe tree is installed at described threaded rod top, and the middle part of described threaded rod is also fixedly connected with block, the two ends of described block are inserted among cabinet wall, and can carry out the movement of vertical direction; The bottom of described turning cylinder fixedly mounts a sphere sheave, the described center line of sphere sheave overlaps with the center line of turning cylinder, sphere sheave opening up, described sphere sheave engages with a horizontally disposed sheave dish, described sheave dish is installed on driving shaft end, described driving shaft is horizontally disposed with through casing, and the other end of described driving shaft installs hand handle.

By technique scheme, shoe tree to be regulated is installed at the top of threaded rod, rotate hand handle, driving shaft rotates, sheave dish rotates thereupon, the sphere sheave engaged with sheave dish also rotates simultaneously, when the transposition pin of sheave dish engages with the transposition groove of sphere sheave, sphere sheave is driven to rotate, and the angle rotated is 90 degree, transposition pin rotates 180 degree, then the semicircular cylinder outer surface of sheave dish engages with static groove, because diameter both it is equal, therefore sphere sheave keeps static, after rotation 180 degree, transposition pin is nibbled with transposition groove again and is engaged, sphere sheave is driven to rotate again 90 degree, and so forth, namely handle rotation one encloses, sheave disc spins 360 deg, sphere sheave rotated ninety degrees, again because sphere sheave is fixedly connected with the turning cylinder vertically set up, therefore each rotated ninety degrees of turning cylinder, threaded rod and turning cylinder are spirally connected, threaded rod and block are fixed, block moves up and down in the block groove of casing, therefore, the rotary motion of threaded rod is prohibited, the movement on vertical direction can only be carried out, shoe tree is owing to being fixed on threaded rod top, thus can rise or fall.Because hand is often rotating 360 deg, turning cylinder is rotated ninety degrees, and therefore, the lifting height of the threaded rod be spirally connected with it is very small, but is also point-device simultaneously, so can reach the object of precise fine-adjustment shoe tree height.

As the one explanation of the utility model to sphere sheave, described sphere sheave is the circular spheroid of half, its inner hollow, its wall is provided with four static grooves of semicircle, these four static grooves are circumferentially on the wall of this semicircle spheroid, in addition, circumferentially four strip transposition grooves between these four static grooves, described static groove and transposition groove and sheave dish engagement rotation.When static groove engages with sheave dish, sphere sheave keeps static, and when transposition groove engages with sheave dish, sphere sheave is driven to rotate 90 degree.

As the one explanation of the utility model to sheave dish, sheave dish comprises disk, semicircular cylinder, brace and transposition pin, described disk is provided with an active axis hole, described driving shaft is through initiatively axis hole and sheave dish are fixed, the diameter dimension equal and opposite in direction of described semicircular cylinder diameter dimension and static groove, semicircular cylinder engages with static groove, and transposition pin can move up and down in transposition groove.The outer diameter of design semicircular cylinder is equal with the diameter dimension of static groove, when so can ensure that semicircular cylinder engages with static groove, sphere sheave keeps static, when transposition pin engages with transposition groove, sphere sheave is driven to rotate 90 degree, and the pin of transposition simultaneously rotates 180 degree.

Illustrate the one of casing as the utility model, described casing comprises upper box and lower box; The inner surface symmetry of described upper box has two block grooves, and install the end of block in block groove, the outer surface of upper box is symmetrical arranged two upper lug, has screwed hole construction bolt in upper lug; The upper base surface center of described lower box has rotational axis hole, the bottom of turning cylinder is arranged in rotational axis hole, the outer surface of lower box is provided with initiatively pillow block, initiatively pillow block is rectangular boss, its center has initiatively axis hole, driving shaft is installed on lower box through active axis hole, the outer surface of lower box is also symmetrically arranged with two lower lugs, screwed hole is had in lower lug, the screwed hole center line of described lower lug overlaps with the screwed hole center line of upper lug, and described upper and lower casing is by the bolted in two pairs of lugs.The upper and lower casing be provided separately can conveniently assemble and disassemble, and the block groove of upper box can facilitate block to slide within it and stop the rotary motion of threaded rod, makes threaded rod increase thus or declines.

Illustrate the one of block as the utility model, the center of described block is circular block, is bar shaped bar on the both sides of circular block, and the end of bar shaped bar is half nahlock, its half nahlock and vertically movement in the block groove of upper box.Occur departing from the phenomenon of block groove in the tip designs of the bar shaped bar process that to be half nahlock be moves up and down at block groove in order to anti-stop block, half nahlock designed like this can hook and not depart from block groove in block groove.

Illustrate as the one of the utility model to turning cylinder and driving shaft mounting means, a large bearing is installed between the bottom of described turning cylinder and rotational axis hole, between the circular hole of described driving shaft and initiatively pillow block, two little bearings are installed.

Accompanying drawing illustrates:

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is the partial sectional view of a kind of manual adjustments shoe tree of the utility model height devices;

Fig. 2 observes resulting structures schematic diagram from the dead ahead of Fig. 1;

Fig. 3 observes resulting structures schematic diagram directly over Fig. 2;

Fig. 4 is A-A schematic cross-section in Fig. 3;

Fig. 5 is that the sheave dish in the utility model coordinates schematic diagram with sphere sheave;

Fig. 6 observes resulting structures schematic diagram from the left back of Fig. 5;

Fig. 7 is B-B schematic cross-section in Fig. 4;

Fig. 8 is the body partial sectional view in the utility model;

Detailed description of the invention:

As Fig. 1 to Fig. 8, a kind of manual adjustments shoe tree height devices, comprise the cylindrical box 20 vertically arranged, the center of described casing 20 arranges turning cylinder 40, and threaded rod 50 is installed on described turning cylinder 40 top, and described turning cylinder 40 is spirally connected with threaded rod 50, shoe tree 200 is installed at described threaded rod 50 top, the middle part of described threaded rod 50 is also fixedly connected with block 60, and the two ends of described block 60 are inserted among casing 20 inwall, and can carry out the movement of vertical direction; The bottom of described turning cylinder 40 fixedly mounts a sphere sheave 80, the center line of described sphere sheave 80 overlaps with the center line of turning cylinder 40, sphere sheave 80 opening up, described sphere sheave 80 engages with a horizontally disposed sheave dish 70, described sheave dish 70 is installed on driving shaft 30 end, described driving shaft 30 is horizontally disposed with through casing 20, and the other end of described driving shaft 30 installs hand 10.

As Fig. 5 and Fig. 6, described sphere sheave 80 is the circular spheroid of half, its inner hollow, its wall is provided with four static grooves 800 of semicircle, these four static grooves 800 are circumferentially on the wall of this semicircle spheroid, in addition, circumferentially four strip transposition grooves 810 between these four static grooves 800, described static groove 800 and transposition groove 810 and sheave dish 70 engagement rotation.

As Fig. 5 and Fig. 6, described sheave dish 70 comprises disk 71, semicircular cylinder 72, brace 73 and transposition pin 74, described disk 71 is provided with an active axis hole 700, described driving shaft 30 is through initiatively axis hole 700 is fixing with sheave dish 70, the diameter dimension equal and opposite in direction of described semicircular cylinder 72 diameter dimension and static groove 800, semicircular cylinder 72 engages with static groove 800, and transposition pin 74 can move up and down in transposition groove 810.

Composition graphs 8, described casing 20 comprises upper box 21 and lower box 22, the inner surface symmetry of described upper box 21 has two block grooves 211, and install the end of block 60 in block groove 211, the outer surface of upper box 21 is symmetrical arranged two upper lug 212, has screwed hole construction bolt in upper lug 212, the upper base surface center of described lower box 22 has rotational axis hole 221, the bottom of turning cylinder 40 is arranged in rotational axis hole 221, the outer surface of lower box 22 is provided with initiatively pillow block 222, initiatively pillow block 222 is rectangular boss, its center has initiatively axis hole 2220, driving shaft 30 is installed on lower box 22 through driving shaft 2220 hole, the outer surface of lower box 22 is also symmetrically arranged with two lower lugs 223, screwed hole is had in lower lug 223, the screwed hole center line of described lower lug 223 overlaps with the screwed hole center line of upper lug 212, on described, lower box is by the bolted in two pairs of lugs.

Composition graphs 7, the center of described block 60 is circular block, is bar shaped bar on the both sides of circular block, and the end of bar shaped bar is half nahlock, and its half nahlock is with vertically mobile in the block groove 211 of upper box 21.

Composition graphs 1, Fig. 2 and Fig. 4, install a large bearing 90 between the bottom of described turning cylinder 40 and rotational axis hole 221, install two little bearings 100 between the circular hole of described driving shaft 30 and initiatively pillow block 222.

In practical operation, shoe tree 200 to be regulated is installed at the top of threaded rod 50, rotate hand 10, driving shaft 30 rotates, sheave dish 70 rotates thereupon, the sphere sheave 80 engaged with sheave dish 70 also rotates simultaneously, when the transposition pin 74 of sheave dish 70 engages with the transposition groove 810 of sphere sheave 80, sphere sheave 80 is driven to rotate, and the angle rotated is 90 degree, transposition pin 74 rotates 180 degree, then semicircular cylinder 72 outer surface of sheave dish 70 engages with static groove 800, because diameter both it is equal, therefore sphere sheave 80 keeps static, after rotation 180 degree, transposition pin 74 is nibbled with transposition groove 810 again and is engaged, sphere sheave 80 is driven to rotate again 90 degree, and so forth, namely handle rotation one encloses, sheave dish 70 rotates 360 deg, sphere sheave 80 rotated ninety degrees, again because sphere sheave 80 is fixedly connected with the turning cylinder 40 vertically set up, therefore each rotated ninety degrees of turning cylinder 40, threaded rod 50 and turning cylinder 40 are spirally connected, threaded rod 50 is fixed with block 60, block 60 moves up and down in the block groove 221 of casing 20, therefore, the rotary motion of threaded rod 50 is prohibited, the movement on vertical direction can only be carried out, shoe tree 200 is owing to being fixed on threaded rod 50 top, thus can rise or fall.Because hand often rotates 360 deg 10, turning cylinder 40 is rotated ninety degrees, and therefore, the lifting height of the threaded rod 50 be spirally connected with it is very small, but is also point-device simultaneously, so can reach the object of precise fine-adjustment shoe tree 200 height.

Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (6)

1. a manual adjustments shoe tree height devices, comprise the cylindrical box (20) vertically arranged, the center of described casing (20) arranges turning cylinder (40), threaded rod (50) is installed on described turning cylinder (40) top, described turning cylinder (40) and threaded rod (50) are spirally connected, shoe tree (200) is installed at described threaded rod (50) top, the middle part of described threaded rod (50) is also fixedly connected with block (60), the two ends of described block (60) are inserted among casing (20) inwall, and can carry out the movement of vertical direction; It is characterized in that: the bottom of described turning cylinder (40) fixedly mounts a sphere sheave (80), the center line of described sphere sheave (80) overlaps with the center line of turning cylinder (40), sphere sheave (80) opening up, described sphere sheave (80) is engaged with a horizontally disposed sheave dish (70), described sheave dish (70) is installed on driving shaft (30) end, described driving shaft (30) is horizontally disposed with through casing (20), and the other end of described driving shaft (30) installs hand (10).

2. a kind of manual adjustments shoe tree height devices as claimed in claim 1, it is characterized in that: described sphere sheave (80) is the circular spheroid of half, its inner hollow, its wall is provided with four static grooves of semicircle (800), these four static grooves (800) are circumferentially on the wall of this semicircle spheroid, in addition, circumferentially four strip transposition grooves (810) between these four static grooves (800), described static groove (800) and transposition groove (810) and sheave dish (70) engagement rotation.

3. a kind of manual adjustments shoe tree height devices as claimed in claim 1, it is characterized in that: described sheave dish (70) comprises disk (71), semicircular cylinder (72), brace (73) and transposition pin (74), described disk (71) is provided with active axis hole (700), described driving shaft (30) is through initiatively axis hole (700) is fixing with sheave dish (70), the diameter dimension equal and opposite in direction of described semicircular cylinder (72) diameter dimension and static groove (800), semicircular cylinder (72) engages with static groove (800), transposition pin (74) can move up and down in transposition groove (810).

4. a kind of manual adjustments shoe tree height devices as claimed in claim 1, is characterized in that: described casing (20) comprises upper box (21) and lower box (22), the inner surface symmetry of described upper box (21) has two block grooves (211), the end of block (60) is installed in described block groove (211), the outer surface of upper box (21) is symmetrical arranged two upper lug (212), and upper lug has screwed hole construction bolt in (212), the upper base surface center of described lower box (22) has rotational axis hole (221), the bottom of turning cylinder (40) is arranged in rotational axis hole (221), the outer surface of lower box (22) is provided with initiatively pillow block (222), initiatively pillow block (222) is rectangular boss, its center has initiatively axis hole (2220), driving shaft (30) is installed on lower box (22) through active axis hole (2220), the outer surface of lower box (22) is also symmetrically arranged with two lower lugs (223), screwed hole is had in lower lug (223), the screwed hole center line of described lower lug (223) overlaps with the screwed hole center line of upper lug (212), on described, lower box is by the bolted in two pairs of lugs.

5. a kind of manual adjustments shoe tree height devices as claimed in claim 1, it is characterized in that: the center of described block (60) is circular block, be bar shaped bar on the both sides of circular block, the end of bar shaped bar is half nahlock, and its half nahlock is with vertically mobile in the block groove (211) of upper box (21).

6. a kind of manual adjustments shoe tree height devices as claimed in claim 1, it is characterized in that: a large bearing (90) is installed between the bottom of described turning cylinder (40) and rotational axis hole (221), between the circular hole of described driving shaft (30) and initiatively pillow block (222), two little bearings (100) are installed.