CN211168496U - Ball installer of transmission band combined module - Google Patents

Abstract

The utility model discloses a transmission band composite module's ball erector, include: the bottom plate is provided with a combined module, wherein the combined module is provided with a plurality of ball frames which contain balls, and one inner side surface of each ball frame is provided with a through hole; the clamping piece is connected to one side of the bottom plate in a sliding mode and moves back and forth on the bottom plate along the horizontal direction to clamp or loosen the combined module; the other side of the bottom plate is upwards protruded to form an inserting shaft seat, the inserting shaft seat is provided with a plurality of pin holes penetrating through the inserting shaft seat, and the pin holes, the through holes of the combined modules and the axes of the balls in the combined modules are all positioned on the same horizontal straight line; a shaft nail is arranged in the pin hole; and the stamping part is used for stamping the inserted shaft seat so as to press the shaft nail through the through hole and the ball axis and then fix the shaft nail on the inner side surface of the ball frame. The utility model discloses can once only push into the ball axle center and fix the ball with a plurality of shaft nails in the composite module, improve the installation effectiveness of ball.

Description

Ball installer of transmission band combined module

Technical Field

The utility model relates to a transmission equipment field especially relates to a transmission band composite module's ball erector.

Background

At present, the modular transmission band is widely applied to various fields because it has advantages of convenient assembly, high stability and the like, the modular transmission band is formed by splicing a plurality of combined modules, and a plurality of balls are assembled in each combined module. The existing combined module is generally assembled by putting balls into the combined module, aligning the axle center of the balls after the axle nail passes through the combined module through manual work, and knocking the axle nail by a hammer to enable the axle nail to be nailed into the inner side wall of the combined module, so that the fixed work of the balls is realized.

However, since the axes of the balls are manually aligned and the pins are manually driven and fixed, a large amount of labor and time are required, and the efficiency of mounting the balls in the segment module cannot be improved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a ball erector of transmission band composite module can increase substantially the installation effectiveness of ball in the composite module.

The purpose of the utility model is realized by adopting the following technical scheme:

a ball mounter of a conveyor belt assembly module, comprising:

the bottom plate is provided with a combined module, wherein the combined module is provided with a plurality of ball frames which contain balls, and one inner side surface of each ball frame is provided with a through hole which penetrates through the combined module;

the clamping piece is connected to one side of the bottom plate in a sliding mode and moves back and forth on the bottom plate along the horizontal direction to clamp or loosen the combined module;

the other side of the bottom plate is upwards protruded to form an inserting shaft seat, the inserting shaft seat is provided with a plurality of pin holes penetrating through the inserting shaft seat, and the pin holes, the through holes of the combined modules and the axes of the balls in the combined modules are all positioned on the same horizontal straight line; a shaft nail is arranged in the pin hole, and the length of the shaft nail is greater than that of the pin hole;

and the stamping part is arranged on one side of the shaft inserting seat far away from the combined module, and the stamping part is used for stamping the shaft inserting seat so as to press the shaft nail through the through hole and fix the shaft nail on the inner side surface of the ball frame after the shaft nail passes through the ball axis.

Furthermore, the two sides of the combined module are provided with connecting blocks which are distributed in a staggered mode, and the through holes are distributed between the two adjacent connecting blocks.

Furthermore, one side of the clamping piece close to the combined module extends outwards to form a protruding block, and the clamping piece is clamped into a gap between two adjacent connecting blocks through the protruding block so as to clamp the combined module.

Furthermore, nail grooves are formed in the inner side faces of the ball frames, opposite to the through holes.

Further, each nail groove and the through hole are in the same horizontal straight line.

Furthermore, connecting blocks are uniformly distributed on the side edge of the combined module corresponding to each nail groove.

Furthermore, the edge of the inner bottom of the ball frame is provided with a limiting block, so that the width of the bottom of the ball frame is smaller than the width of the top of the ball frame.

Furthermore, the outer contour of the limiting block is matched with the outer contour of the ball.

Furthermore, horizontal rods horizontally extend from two ends of the shaft inserting seat, guide rails are arranged on inner side surfaces of the two horizontal rods, and the guide rails are connected with two ends of the stamping part in a sliding mode.

Further, the pinhole, the perforation of composite module, the same horizontal straight line at axle center and the nail groove place of ball in the composite module are on the horizontal central line of composite module, and wherein the horizontal central line of composite module evenly bisects composite module's thickness into two halves.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the screens piece can carry out the chucking to the composite module, and the plug-in shaft seat is used for restricting the position of axle nail for on axle nail is in same water flat line with the axle center of ball, be convenient for run through the ball axle center accurately with the axle nail, the stamping workpiece can once only with a plurality of axle nails in the composite module push into the composite module, and fix it on the inside wall of ball frame, thereby realize fixing the ball on the composite module high-efficiently and accurately, improve the installation effectiveness of ball.

Drawings

Fig. 1 is a schematic structural diagram of the ball mounting device of the present invention;

FIG. 2 is a schematic view of the assembly structure of the ball mounting device and the assembly module of the present invention;

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

fig. 4 is a schematic structural diagram of the stamping part of the ball mounter of the present invention.

In the figure: 1. combining the modules; 2. a ball frame; 3. a limiting block; 4. perforating; 5. a nail groove; 6. connecting blocks; 7. a base plate; 8. a clamping piece; 9. a bump; 10. a shaft inserting seat; 11. a pin hole; 12. a shaft nail; 13. a cross bar; 14. a guide rail; 15. and (5) stamping.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

The utility model provides a ball erector of transmission band composite module for once only fix a plurality of ball in the composite module 1, can effectively improve the installation effectiveness of ball.

As shown in figures 1-3, a plurality of ball frames 2 are arranged on the combined module 1, and each ball frame 2 can be correspondingly assembled with a ball. The edge of the inner bottom of the ball frame 2 is provided with a limiting block 3, the outer contour of the limiting block 3 is matched with the outer contour of the ball, so that the width of the bottom of the ball frame 2 is smaller than the width of the top of the ball frame 2, when the ball is placed in the ball frame 2, the limiting block 3 supports the ball, the ball can be accurately placed in the ball frame 2, and the ball is prevented from inclining in the ball frame 2 to influence the accuracy degree of subsequent shaft insertion; in addition, the limiting block 3 supports the ball of the combination module, so that the axis of the ball is higher than the horizontal central line of the combination module 1, wherein the horizontal central line is a dividing line which can evenly divide the thickness of the combination module 1 into two halves; after the ball finishes in the installation, the one end of ball can obviously outstanding assembling module 1's upper surface to avoid transporting goods and assembling module 1's upper surface contact wearing and tearing, influence assembling module 1's life.

A through hole 4 penetrating through the combined module 1 is formed in one inner side wall of the ball frame 2, and the existence of the through hole 4 enables the shaft nail 12 to be inserted into the ball frame 2 from the outside of the combined module 1 so as to fix the ball; and seted up nail groove 5 on 2 inside walls of the relative ball frame of perforation 4, this nail groove 5 does not run through composite module 1, and nail groove 5's effect lies in the thickness that suitably reduces 2 inside walls of ball frame, and the corresponding insert composite module 1 of the axle nail 12 of being convenient for improves the stability of ball installation. The opening position of the nail groove 5 and the opening position of the through hole 4 are kept on the same horizontal straight line, so that the shaft nail 12 can be directly nailed into the nail groove 5 after passing through the through hole 4, and the fixing accuracy of the shaft nail 12 is improved.

The two sides of the combined module 1 are provided with connecting blocks 6 which are distributed in a staggered manner, in the embodiment, the through holes 4 are distributed between two adjacent connecting blocks 6, and enough space is provided for the shaft nails 12 to enter the ball frame 2; and every nail groove 5 all corresponds a connecting block 6 for 12 when nailing into nail groove 5, connecting block 6 has properly increased nail groove 5 department's composite module 1's thickness, thereby avoids nail groove 5 department's composite module 1 to receive external force to strike and appear the fracture, improves composite module 1's stability.

The ball erector is including a bottom plate 7, the width of bottom plate 7 is greater than the width of composite module 1 for place composite module 1 on its surface, and install a screens piece 8 on the right side of bottom plate 7, accessible slide rail or mode such as round pin axle realize sliding connection between screens piece 8 and the bottom plate 7, screens piece 8 can realize the ascending round trip movement of left and right sides on bottom plate 7 promptly, thereby realizes the chucking or loosens the effect of composite module 1.

In order to improve the stability of the clamping of the combined module 1 one side of the clamping piece 8 close to the combined module 1 is outwardly extended to have a protruding piece 9, and the clamping piece 8 is clamped into the gap between two adjacent connecting blocks 6 on the right side of the combined module 1 through the protruding piece 9 so as to realize the clamping of the combined module 1 and avoid the displacement of the combined module 1.

A shaft inserting seat 10 is formed at the left side edge of the bottom plate 7 in an upward protruding mode, and a height difference exists between the shaft inserting seat 10 and the bottom plate 7; in this embodiment, the boundary line of screens piece 8, the boundary line of inserting shaft seat 10 all keep parallel with the vertical central line of composite module 1 for composite module 1's screens is more stable, avoids having the clearance between composite module 1 and inserting shaft seat 10, the screens piece 8, influences the accuracy of inserting the axle.

The inserting shaft seat 10 is provided with a plurality of pin holes 11 penetrating through the inserting shaft seat 10, and the height from the pin holes 11 to the upper surface of the bottom plate 7 corresponds to the height of the through holes 4 in the combined module 1, so that the pin holes 11, the through holes 4 in the combined module 1 and the axes of the balls in the combined module 1 are all positioned on the same horizontal straight line, and the installation of the shaft nails 12 is facilitated. Meanwhile, the pin hole 11, the through hole 4 of the combined module 1, the axle center of the ball in the combined module 1 and the same horizontal straight line where the nail groove 5 is located are positioned on the horizontal central line of the combined module 1, wherein the horizontal central line of the combined module 1 is a dividing line capable of evenly dividing the thickness of the combined module 1 into two halves; make the ball fixed back, the one end of ball can obviously outstanding composite module 1's upper surface to avoid the upper surface contact wearing and tearing of transportation goods and composite module 1, influence composite module 1's life.

The pin holes 11 are used for installing the shaft nails 12, after the combined module 1 is fixed through the clamping pieces 8, the shaft nails 12 are inserted into the pin holes 11, and the shaft center positions of the balls can be accurately positioned, so that the shaft nails 12 can be conveniently installed; the length of the shaft nail 12 is larger than that of the pin hole 11, when the shaft nail 12 is inserted into the pin hole 11, one end of the shaft nail 12 is exposed outside the shaft inserting seat 10, so that the stamping part 15 can directly stamp the shaft nail 12 and insert the shaft nail into the shaft center of the ball.

And the left side of the shaft inserting seat 10 is provided with a stamping part 15, the stamping part 15 pushes the shaft nail 12 inserted into the pin hole 11 into the combined module 1 under the pushing of external force, so that the end part of the shaft nail 12 is nailed into the nail groove 5 of the ball frame 2 after the shaft nail 12 is pressed through the through hole 4 and the axle center of the ball, thereby realizing the fixation of the ball.

The stamping part 15 can simultaneously insert a plurality of shaft nails 12 into the axle centers of the balls in the combined module 1 at one time, so that the ball mounting efficiency is greatly improved; simultaneously stamping workpiece 15 adopts the once only axle nail 12 to same combination module 1 of same dynamics to carry out the punching press, can make every axle nail 12 nail go into the degree of depth of its nail groove 5 that corresponds all to keep the same, can keep combination module 1's stability, avoids axle nail 12 to nail into the degree of depth difference and leads to the cracked condition to appear easily in combination module 1.

In order to guarantee that the punching direction of stamping part 15 keeps unified the equal horizontal extension in both ends of axle bed 10 has horizontal pole 13, and the medial surface of two horizontal poles 13 all is equipped with guide rail 14, guide rail 14 with the both ends sliding connection of stamping part 15 makes stamping part 15 can move along guide rail 14 to guarantee that the produced thrust direction of stamping part 15 punching press at every turn all keeps perpendicular with axle bed 10 surface, makes the axle center position that the axle nail 12 can aim at the ball accurately and fast, fixes the ball on assembling module 1, increases substantially the installation effectiveness and the degree of accuracy of ball.

The height of the stamping part 15 directly determines the number of the disposable shaft nails 12, as shown in fig. 1 and 2, the height of the stamping part 15 can be flush with the height of the combined module 1, so that the stamping part 15 can push all the shaft nails 12 of one combined module 1 into the combined module 1 at one time; as shown in fig. 4, the height of the stamping 15 may be smaller than that of the combined module 1, and the shaft pin 12 is inserted into the combined module 1 after the stamping 15 is stamped for multiple times at different heights.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. The utility model provides a ball erector of transmission band composite module which characterized in that includes:

the bottom plate is provided with a combined module, wherein the combined module is provided with a plurality of ball frames which contain balls, and one inner side surface of each ball frame is provided with a through hole which penetrates through the combined module;

the clamping piece is connected to one side of the bottom plate in a sliding mode and moves back and forth on the bottom plate along the horizontal direction to clamp or loosen the combined module;

the other side of the bottom plate is upwards protruded to form an inserting shaft seat, the inserting shaft seat is provided with a plurality of pin holes penetrating through the inserting shaft seat, and the pin holes, the through holes of the combined modules and the axes of the balls in the combined modules are all positioned on the same horizontal straight line; a shaft nail is arranged in the pin hole, and the length of the shaft nail is greater than that of the pin hole;

and the stamping part is arranged on one side of the shaft inserting seat far away from the combined module, and the stamping part is used for stamping the shaft inserting seat so as to press the shaft nail through the through hole and fix the shaft nail on the inner side surface of the ball frame after the shaft nail passes through the ball axis.

2. A ball mounting apparatus for a conveyor belt module as claimed in claim 1, wherein said combined module has connection blocks disposed at both sides thereof in a staggered manner, and said through holes are disposed between two adjacent connection blocks.

3. A roller ball mounting apparatus for conveyor belt modular blocks as claimed in claim 1 wherein said retaining member has a protrusion extending outwardly from a side thereof adjacent to the modular blocks, the retaining member being retained by the protrusion in a gap between adjacent modular blocks to retain the modular blocks.

4. A roller mounter for conveyor belt assembly modules as claimed in claim 2, wherein each of said perforated ball frames has a nail groove formed on an inner side thereof.

5. A conveyor assembly ball mounter according to claim 4, wherein each of said nail grooves is aligned with said through hole.

6. A roller ball mounting apparatus for conveyor belt modular blocks as claimed in claim 5 wherein each of said nail grooves has a connecting block disposed on the side of the corresponding modular block.

7. A ball mounter for conveyor belt assembly blocks as claimed in claim 1, wherein a stopper is provided at the inner bottom edge of said ball frame so that the width of the bottom of the ball frame is smaller than the width of the top of the ball frame.

8. The ball mounter for conveyor belt assembly modules as claimed in claim 7, wherein the outer contour of said stopper is matched with the outer contour of the ball.

9. A roller ball mounting apparatus for conveyor belt assembly modules as in claim 1 wherein said shaft receiving base has horizontal bars extending horizontally from both ends thereof, and guide rails are provided on the inner side surfaces of the two bars and slidably connected to both ends of said stamping member.

10. A ball mounter for conveyor belt modular blocks as claimed in claim 1, wherein said pin holes, said through holes of said modular blocks, and said axis of said balls and said horizontal straight line on which said nail grooves are located in said modular blocks are located on a horizontal center line of said modular blocks, wherein said horizontal center line of said modular blocks evenly bisects said thickness of said modular blocks into two halves.

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