CN218578746U - Advance brick conveying equipment - Google Patents

Abstract

The utility model discloses an advance brick conveying equipment, including base and conveying chain, the base both ends are equipped with a set of axle ware, set up the axle ware and include frame and axle sleeve, be equipped with oblique knock pin on the axle sleeve, the frame inboard is equipped with the kicking block, the kicking block top is equipped with rotatable threaded rod, the meshing of threaded rod top is on the frame, the inner wall of kicking block back and frame offsets, the front end and the laminating of oblique knock pin of kicking block offset, the mode that offsets through kicking block and oblique knock pin inclined plane lets the threaded rod drive the axle sleeve and removes, the threaded rod sets up to vertical state and meshes with the frame mutually, and utilize the guide pillar to restrict the kicking block and make the threaded rod enough perpendicular, then conveying chain, the kicking block is transmitted in the vibrations of transmission shaft, because offset through the inclined plane between kicking block and the oblique knock pin, make vibrations driven power can receive the inclined plane sharing, let the kicking block can also vertical upward movement simultaneously, make the threaded rod complete atress in the threaded hole of frame, avoid the atress to take place local huge atress partially to lead to threaded rod and threaded hole, local wearing and tearing.

Description

Advance brick conveying equipment

Technical Field

The utility model relates to a receive the brick line field, specifically be an advance brick conveying equipment.

Background

Advance brick conveying equipment is used for transmitting the fragment of brick in receiving the brick line, the conveying equipment of layer board, when using, place the base on the receipts brick line link that needs use, utilize driving motor to come to link to each other with the transmission shaft, thereby control the conveying chain and remove, carry the fragment of brick, it is known, come to be connected with the base through the axle sleeve in the both sides of transmission shaft, the level is equipped with rotatable threaded rod and this threaded rod carries out threaded connection with the frame on the axle sleeve, come outwards of control axle sleeve through rotatory threaded rod, inwards move, thereby adjust the elasticity between transmission shaft and the conveying chain.

When adjusting under the mode of current threaded rod straight push axle sleeve, carry out lug connection between threaded rod and the axle sleeve, not only the conveying chain, the vibrations of transmission shaft can directly transmit for the threaded rod, and, because the axle sleeve top is the one end that receives the pressure, and the axle sleeve bottom is for receiving the one end of conveying chain pulling, make the axle sleeve can take place the slope between two gib blocks, when using, the power of a slope can be given to the axle sleeve, not only can make the rotatory degree of difficulty of threaded rod strengthen, still can influence the screw thread between threaded rod and the frame, cause the screw thread atress, wearing and tearing increase, the same corner that still makes the axle sleeve let the axle sleeve bottom outside when adjusting, the corner of top inboard rubs the gib block, scrape, not only make the regulation difficulty, still very easily wearing and tearing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an advance brick conveying equipment to solve above-mentioned technical problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an advance brick conveying equipment, includes base and conveying chain, the base both ends are equipped with a set of axle ware, nested in the set of axle ware has the transmission shaft, the conveying chain nestification is on the transmission shaft at both ends, set up the axle ware and include frame and axle sleeve, both ends are equipped with the gib block about in the frame, the axle sleeve slides nestedly between the gib block, the transmission shaft nestification is on the axle sleeve, the one end that the base was kept away from to the axle sleeve is equipped with oblique knock pin, the inboard one end that is close to oblique knock pin of frame is equipped with the kicking block, the kicking block top is equipped with rotatable threaded rod, the meshing of threaded rod top corresponds on the frame and is equipped with the screw hole, the kicking block back offsets with the inner wall of frame, the front end and the laminating of knock pin offset to one side.

The guide pins are arranged at the upper end and the lower end of the shaft sleeve and are embedded with the guide strips, the guide pins are in clearance fit with the guide strips, and the guide pins are used for limiting the horizontal movement of the shaft sleeve.

And, the one side that kicking block and oblique ejector pin laminating offset is the inclined plane, and technical personnel in the field can know, and the top of kicking block is equipped with rotatable threaded rod and this threaded rod upwards with the frame meshing for the kicking block mainly reciprocates at the upper portion of frame, and the inclined plane of should laminating each other can turn into the lateral shifting of oblique ejector pin with the downstream of kicking block, and is same, this inclined plane can by the relative corner of kicking block and oblique top carries out the chamfer and reachs, and the width technical personnel at chamfer both ends can set up according to actual need, and the inclined plane inclination can set up according to actual need promptly.

The utility model discloses a further disclose, be equipped with a guide pillar that from top to bottom pierces through the kicking block in the frame, the guide pillar parallels with the frame inner wall that the kicking block was laminated, be clearance fit between kicking block and the guide pillar to lead to the kicking block, it is optional, this guide pillar can also be cylindric for the quadrangular form, and the skilled person can know, because the inner wall of kicking block back and frame offsets, this cylindric guide pillar only need ensure can guide the kicking block toward the direction of needs remove can, and the guide pillar that adopts the quadrangular form then can further increase limit function.

The utility model discloses a further disclose, be equipped with the dovetail groove on the inclined plane of kicking block, the nested driving rail that has of dovetail groove, the width that drives the outer tip of rail part is greater than its width that is close to the part on kicking block inclined plane, moreover, be equipped with on the inclined plane of oblique knock pin and drive rail assorted drive groove, drive rail embedding block and drive the inslot, technical personnel in the field know, transmission shaft department and the conveying chain of this department take place not hard up the back usually then need move the kicking block downwards, and then outwards ejecting the axle sleeve, make the meshing between transmission shaft and the conveying chain more nearly, when having needs, the axle sleeve of the homonymy other end, the axle sleeve of opposite side probably need the internal contraction to adjust the depth of parallelism between the transmission shaft, through letting utilize between kicking block and the axle sleeve to drive rail looks nested block, make the threaded rod when driving the kicking block rebound, can also drive the axle sleeve cooperation and carry out the inward movement.

The utility model discloses a further disclose, the bottom the uide pin is equipped with a gyro wheel that offsets with the gib block at least in the one end that is close to oblique knock pin, the top the uide pin is equipped with a gyro wheel that is used for contacting with the gib block in keeping away from the one end of oblique knock pin at least, simultaneously, the bottom the gyro wheel bottom on the uide pin is kept level with the one side on laminating gib block top in the uide pin mutually, and technical personnel in the field can know, when current threaded rod pushes away the mode of axle sleeve directly, because the axle sleeve top is the one end that receives the pressure, and the axle sleeve bottom is for receiving the one end that the conveying chain stimulates for the axle sleeve can take place the slope between two gib blocks, not only can influence the threaded rod, the same corner that still makes the axle sleeve let the axle sleeve bottom outside when adjusting, the inboard corner in top rubs the gib block, scrapes, not only makes the regulation difficulty, still very easily wearing and tearing.

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

1. the utility model discloses a mode that kicking block and oblique knock pin inclined plane offset lets the threaded rod drive the axle sleeve and removes, this kind of adjustment mode's frame axle ware is when using, the kicking block back offsets with the inner wall of frame, the threaded rod sets up to vertical state and meshes mutually with the frame, and utilize the guide pillar to restrict the kicking block and make the threaded rod be enough vertically state, afterwards, the conveying chain, the vibrations transmission of transmission shaft is for the kicking block, because offset through the inclined plane between kicking block and the oblique knock pin, make vibrations driven power can carry out certain separation through the inclined plane, reduce the power of direct action kicking block and threaded rod, the kicking block can also vertical upward movement simultaneously, make the threaded rod complete atress in the threaded hole of frame, avoid the atress to have taken place local huge atress with the screw thread that leads to threaded rod and screw hole partially, local wearing and tearing.

2. The utility model discloses push down in the kicking block slant and move oblique knock pin when driving the axle sleeve and remove for be close to the one end of oblique knock pin on the uide pin, the gyro wheel on the gyro wheel position compresses tightly the gib block promptly, and the relative position of axle sleeve top uide pin also can offset with the gib block on top, makes the removal of axle sleeve more in the same direction as smooth.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used for describing the embodiments will be briefly described below.

Fig. 1 is a basic structure diagram of the appearance of the present invention;

FIG. 2 is a schematic three-dimensional structure of the shaft holder;

FIG. 3 is a schematic view of a partial front cross-sectional structure of the shaft mounting device;

fig. 4 is a schematic three-dimensional structure of a top block.

Fig. 5 is a schematic three-dimensional structure of the top block and the angle pin matched through the driving rail.

Fig. 6 is a schematic front sectional view of the guide pin with the roller.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a base; 2. a conveyor chain; 3. a shaft supporter; 4. a drive shaft; 31. an outer frame; 32. a shaft sleeve; 33. a top block; 34. a threaded rod; 3a, a guide strip; 3b, a guide post; 321. a guide pin; 322. a lifter pin; 323. a driving groove; 324. a roller; 331. the rail is driven.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution of a brick feeding and conveying apparatus: a brick feeding and conveying device.

One specific application example of this embodiment is:

advance brick conveying equipment and include base 1 and conveying chain 2, 1 both ends of base are equipped with a pedestal 3, it has transmission shaft 4 to nest in the pedestal 3, 2 nestification of conveying chain are on transmission shaft 4 at both ends, a pedestal 3 includes frame 31 and axle sleeve 32, both ends are equipped with gib block 3a about in the frame 31, axle sleeve 32 slides nestedly between gib block 3a, 4 nestings of transmission shaft are on axle sleeve 32, both ends are equipped with the gib block 321 of nestification mutually with gib block 3a about axle sleeve 32, for clearance fit between gib block 321 and the gib block 3a, utilize gib block 321 to restrict the horizontal migration of axle sleeve 32.

When the prior art is in use, place base 1 on the receipts brick line link that needs to use, utilize driving motor to link to each other with transmission shaft 4, thereby control conveying chain 2 removes, carry the fragment of brick, it is known, come to be connected with base 1 through axle sleeve 32 in the both sides of transmission shaft 4, level is equipped with rotatable threaded rod 34 and this threaded rod 34 carries out threaded connection with frame 31 on axle sleeve 32, control the outside of axle sleeve 32, inside removal through rotatory threaded rod 34, thereby adjust the elasticity between transmission shaft 4 and the conveying chain 2.

Specifically, when the existing threaded rod 34 is adjusted in a mode of directly pushing the shaft sleeve 32, the threaded rod 34 is directly connected with the shaft sleeve 32, not only the conveying chain 2 and the transmission shaft 4 can directly transmit the vibration to the threaded rod 34, but also the top end of the shaft sleeve 32 is the end subjected to pressure, and the bottom end of the shaft sleeve 32 is the end pulled by the conveying chain 2, so that the shaft sleeve 32 can incline between the two guide strips 3a, when the adjusting device is used, the shaft sleeve 32 can give an inclined force to the threaded rod 34, not only can the rotation difficulty of the threaded rod 34 be increased, but also the threads between the threaded rod 34 and the outer frame 31 can be influenced, the thread stress and abrasion are increased, and the same effect that the shaft sleeve 32 can rub and scrape the corners outside the bottom end of the shaft sleeve 32 and the corners inside the top end of the guide strips 3a when the adjusting is carried out, not only the adjusting is difficult, but also the adjusting is extremely easy to abrade.

Wherein, the one end that base 1 was kept away from to axle sleeve 32 is equipped with oblique knock pin 322, the one end that frame 31 inboard is close to oblique knock pin 322 is equipped with kicking block 33, kicking block 33 top is equipped with rotatable threaded rod 34, threaded rod 34 top meshing corresponds on frame 31 and is equipped with on the screw hole, the kicking block 33 back offsets with the inner wall of frame 31, the front end and the laminating of oblique knock pin 322 of kicking block 33 offset.

And, the one side that kicking block 33 and oblique ejector pin 322 laminating offset is the inclined plane, and technical personnel in the art know, the top of kicking block 33 is equipped with rotatable threaded rod 34 and this threaded rod 34 upwards meshes with frame 31 for kicking block 33 mainly reciprocates at the upper portion of frame 31, and this inclined plane of laminating each other can turn into the lateral shifting of oblique ejector pin 322 with the downstream of kicking block 33, and is same, this inclined plane can be by kicking block 33 and the relative corner of oblique top carry out the chamfer and reachs, and the width at chamfer both ends technical personnel in the field can set up according to actual need, and the inclined plane inclination can set up according to actual need promptly.

Further disclosed in this embodiment, be equipped with a guide pillar 3b that from top to bottom pierces through kicking block 33 in the frame 31, the guide pillar 3b parallels with the frame 31 inner wall that kicking block 33 laminated, be clearance fit between kicking block 33 and the guide pillar 3b to lead kicking block 33, optionally, this guide pillar 3b can also be cylindric for the quadrangular form, can know with technical staff in the art, because kicking block 33 back offsets with the inner wall of frame 31, this cylindric guide pillar 3b only need ensure can guide kicking block 33 to the direction removal that needs can, and the guide pillar 3b that adopts the quadrangular form then can further increase limit function.

When the installation, during the debugging and during later maintenance, adjust under the mode of the threaded rod 34 straight push shaft sleeve 32 that does not adopt, it is concrete, drive kicking block 33 downstream through rotatory threaded rod 34, offset through the inclined plane between kicking block 33 and the oblique knock pin 322, this inclined plane of laminating each other can turn into the lateral shifting of oblique knock pin 322 with the downstream of kicking block 33, thereby it is outwards ejecting to drive shaft sleeve 32, taut transmission shaft 4 and conveying chain 2, thereby accomplish the installation of conveying chain 2 on transmission shaft 4, the debugging and the maintenance.

Similarly, when the shaft erecting device 3 with the adjusting mode is used, the back of the top block 33 is abutted to the inner wall of the outer frame 31, and when the back of the top block 33 is abutted to the inner wall of the outer frame 31, the threaded rod 34 is set to be in a vertical state to be meshed with the outer frame 31, the top block 33 is limited by the guide pillar 3b to enable the threaded rod 34 to be in a sufficiently vertical state, then, the vibration of the conveying chain 2 and the transmission shaft 4 is transmitted to the top block 33, and the top block 33 is abutted to the inclined top pin 322 through the inclined plane, so that the force of vibration transmission can be separated to a certain degree through the inclined plane, the force directly applied to the top block 33 and the threaded rod 34 is reduced, meanwhile, the complete force of the threaded rod 34 in the threaded hole of the outer frame 31 after being stressed is also ensured, and the local huge stress and local abrasion of the threaded rod 34 and the threaded hole caused by the eccentric stress are avoided.

As further disclosed in this embodiment, a trapezoidal groove is formed on the inclined surface of the top block 33, a driving rail 331 is nested in the trapezoidal groove, the width of the outer end portion of the driving rail 331 is greater than the width of the portion of the driving rail 331 close to the inclined surface of the top block 33, a driving groove 323 matched with the driving rail 331 is formed on the inclined surface of the oblique top pin 322, and the driving rail 331 is embedded and clamped in the driving groove 323, as known by those skilled in the art, usually, after the transmission shaft 4 and the transmission chain 2 at the position are loosened, the top block 33 needs to be moved downward, and then the shaft sleeve 32 is ejected outward, so that the transmission shaft 4 and the transmission chain 2 are meshed closer, when necessary, the shaft sleeve 32 at the other end of the same side and the shaft sleeve 32 at the other side may need to be retracted inward, so as to adjust the parallelism between the transmission shafts 4, and the top block 33 and the shaft sleeve 32 are nested by the driving rail 331, so that the threaded rod 34 can also drive the shaft sleeve 32 to cooperate to move inward when the driving top block 33 moves upward.

As further disclosed in this embodiment, when the conventional threaded rod 34 is adjusted in a manner of pushing the shaft sleeve 32 directly, the top end of the shaft sleeve 32 is a pressed end, and the bottom end of the shaft sleeve 32 is an end pulled by the conveying chain 2, so that the shaft sleeve 32 can be tilted between the two guide strips 3a, which not only affects the threaded rod 34, but also enables the corners outside the bottom end of the shaft sleeve 32 and the corners inside the top end of the shaft sleeve 32 to rub and scrape the guide strips 3a during adjustment, which not only makes adjustment difficult, but also makes wear easy, in this embodiment, the bottom end of the guide pin 321 is provided with at least one roller 324 abutting against the guide strips 3a at the end close to the lifter pin 322, the top end of the guide pin 321 is provided with at least one roller 324 for contacting the guide strips 3a at the end far away from the lifter pin 322, and the bottom end of the roller 324 on the guide pin 321 is aligned with the surface of the top end of the guide strip 3a abutting against the guide strip 3a in the guide pin 321, so that the top block 33 presses the lifter pin 322 to move the guide pin 324, which the guide strip 32 can move closer to the lifter, i.e., the guide strip 321 moves closer to the guide strip 324, which the guide strip moves.

Claims (8)

1. The utility model provides an advance brick conveying equipment, includes base and conveying chain, the base both ends are equipped with a frame axle ware, the nested transmission shaft that has in the frame axle ware, the conveying chain nestification is on the transmission shaft at both ends, its characterized in that: the shaft supporting device comprises an outer frame and a shaft sleeve, guide strips are arranged at the upper end and the lower end in the outer frame, the shaft sleeve is nested between the guide strips in a sliding mode, and the transmission shaft is nested on the shaft sleeve;

an inclined jacking pin is arranged at one end, far away from the base, of the shaft sleeve, a jacking block is arranged at one end, close to the inclined jacking pin, of the inner side of the outer frame, a rotatable threaded rod is arranged at the top end of the jacking block, and the top end of the threaded rod is meshed with a threaded hole correspondingly formed in the outer frame;

the back of the ejector block abuts against the inner wall of the outer frame, and the front end of the ejector block abuts against the inclined ejector pin in an attaching mode.

2. A brick feeding and conveying apparatus according to claim 1, wherein: the upper end and the lower end of the shaft sleeve are provided with guide pins which are embedded with the guide strips, and the guide pins are in clearance fit with the guide strips.

3. A brick feeding and conveying apparatus according to claim 2, wherein: the side that kicking block and oblique ejector pin laminating offset is the inclined plane, and this inclined plane can be by the relative corner of kicking block and oblique top is carried out the chamfer and is reachd.

4. A brick feeding and conveying apparatus according to claim 3, wherein: the outer frame is internally provided with a guide pillar penetrating through the top block from top to bottom, the guide pillar is parallel to the inner wall of the outer frame attached with the top block, and the top block and the guide pillar are in clearance fit.

5. A brick feeding and conveying apparatus according to claim 2, wherein: the device comprises a top block, a driving rail and a driving rail, wherein the inclined surface of the top block is provided with a trapezoidal groove, the driving rail is nested in the trapezoidal groove, and the width of the outer end part of the driving rail is larger than that of the part of the driving rail close to the inclined surface of the top block.

6. A brick feeding and conveying apparatus according to claim 5, characterized in that: the inclined plane of the inclined ejector pin is provided with a driving groove matched with the driving rail, and the driving rail is embedded and clamped in the driving groove.

7. A brick feeding and conveying apparatus according to claim 2, wherein: the guide pin at the bottom end is provided with at least one roller which is abutted against the guide strip at one end close to the inclined top pin, and the guide pin at the top end is provided with at least one roller which is used for being contacted with the guide strip at one end far away from the inclined top pin.

8. A brick feeding and conveying apparatus according to claim 7, wherein: the bottom end of the roller on the guide pin at the bottom end is flush with one surface, which is in the guide pin and is close to the top end of the guide strip.

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