CN221088028U - Shaft lever continuous processing equipment - Google Patents

Abstract

The utility model relates to the technical field of machinery, and provides shaft rod continuous machining equipment which comprises a clamping machining mechanism, a feeding mechanism, a bottom plate and a feeding seat, wherein the clamping machining mechanism comprises a machining shell and a clamping shell, the machining shell and the clamping shell are fixedly connected to the top of the bottom plate, the top of the bottom plate is fixedly connected with the machining seat, a motor is arranged in the machining shell, materials are placed on the machining seat through the arrangement of the clamping machining mechanism, the motor and other structures, a hydraulic press is started to prop the materials, then the motor is started, the motor rotates to enable the materials and machining round blocks to rotate simultaneously, the rotation directions of the machining round blocks are opposite, the materials rotate and the machining round blocks are matched in a rotating mode, and therefore the service efficiency is improved.

Description

Shaft lever continuous processing equipment

Technical Field

The utility model relates to the technical field of machinery, in particular to shaft lever continuous processing equipment.

Background

Currently, shaft rod machining refers to a machining method, and the diameter, length and shape precision of a shaft rod are enabled to meet preset requirements through means of cutting, grinding and the like.

In the prior art, the authorized bulletin number is: CN208051358U is a steel plate continuous processing equipment, and this patent relates to a steel plate continuous processing equipment, and this patent is including material feeding unit cold press device, bending device, cutter, control module, and this patent can carry out pay-off, cold press, cut off and bending process to the steel plate to can start and stop the pay-off motor according to the circumstances of steel plate pay-off, prevented excessive pay-off and led to the emergence of production accident.

However, this patent requires a plurality of devices to cooperate during processing, and is inefficient in use, and the material of this patent is inconvenient to take.

Disclosure of utility model

The utility model provides a continuous processing device for a shaft rod, which solves the problems of low use efficiency and inconvenient material taking in the related technology.

The technical scheme of the utility model is as follows: the utility model provides a axostylus axostyle continuous processing equipment, includes centre gripping processing mechanism, feeding mechanism, bottom plate and feeding seat, centre gripping processing mechanism includes processing casing and centre gripping casing, processing casing with equal fixed connection of centre gripping casing is in the top of bottom plate, the top fixedly connected with processing seat of bottom plate, the internally mounted of processing casing has the motor, the output of motor has the axis of rotation of coaxial setting through the coupling joint, the inside of processing casing rotates respectively installs rotation axis, follow-up shaft and driven shaft, the rotation axis with the equal fixedly connected with processing circle piece of one end of follow-up shaft, the rotation axis follow-up shaft with all fixed cover is equipped with the rotation gear on the outer peripheral face of driven shaft, four rotation gear intermeshing, one of them fixed cover is equipped with the follow-up gear on the outer peripheral face of follow-up shaft, the fixed cover is equipped with the driven gear on the outer peripheral face, the follow-up gear with the driven shaft meshes mutually, the one end fixedly connected with top direct piece of driven shaft, the inside sliding connection of top direct piece has the sliding block, one side of sliding block is provided with rotation axis, the same circumference face as the inside of the rotation axis has the rotation axis, the same hydraulic pressure transmission is equipped with the same circumference face as the transmission of the spool.

Preferably, the feeding mechanism comprises a power device, the power device is arranged at the top of the feeding seat, the conveying device is arranged at the top of the feeding seat, the top of the bottom plate is fixedly connected with a preset block, and the top of the preset block is fixedly connected with a semicircular placing seat.

Preferably, the inside of the top connection block is provided with a groove, the sliding block is in sliding connection with the inside of the top connection block, a spring is commonly connected between the sliding block and the inner wall of the groove, and the groove is used for sliding of the sliding block.

Preferably, a round hole is formed in the machining shell, the rotating shaft is rotatably mounted in the round hole, and the round hole is used for rotating the rotating shaft.

Preferably, two symmetrically arranged circular grooves are formed in the machining shell, the two follow-up shafts are respectively and rotatably arranged in the two circular grooves, and the circular grooves are used for rotating the follow-up shafts.

Preferably, a hole groove is formed in the clamping shell, the round shaft is rotatably mounted in the hole groove, and the hole groove is used for rotating the round shaft.

The working principle and the beneficial effects of the utility model are as follows:

1. According to the utility model, through the arrangement of the clamping processing mechanism, the motor and other structures, the material is placed on the processing seat, the hydraulic device is started to prop the material, then the motor is started, the motor rotates to enable the material and the processing round block to rotate simultaneously, the rotation directions of the processing round block are opposite, and the material rotates to be matched with the rotation of the processing round block, so that the use efficiency is increased.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a front view of the present utility model;

fig. 4 is an enlarged view of the utility model at reference a.

In the figure: 1. clamping and processing mechanism; 100. processing the shell; 101. a clamping housing; 11. a bottom plate; 120. a motor; 12. a rotating shaft; 122. rotating the gear; 123. processing round blocks; 124. a rotation shaft; 13. a follower shaft; 131. a follower gear; 14. a driven shaft; 141. a driven gear; 142. a transmission belt; 143. a top connection block; 144. a sliding block; 145. a rubber pad; 146. a spring; 15. a linear shaft; 151. a conveyor belt; 16. a circular shaft; 161. a hydraulic device; 162. a top block; 17. a processing seat; 2. a feeding mechanism; 21. a feeding seat; 22. a power device; 23. a transfer device; 24. presetting a block; 25. the semicircle placing seat.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-4, the embodiment provides a continuous processing device for a shaft rod, which is characterized by comprising a clamping processing mechanism 1, a feeding mechanism 2, a bottom plate 11 and a feeding seat 21, wherein the clamping processing mechanism 1 comprises a processing shell 100 and a clamping shell 101, the processing shell 100 and the clamping shell 101 are fixedly connected to the top of the bottom plate 11, the top of the bottom plate 11 is fixedly connected with a processing seat 17, a motor 120 is installed in the processing shell 100, an output end of the motor 120 is connected with a rotating shaft 12 coaxially arranged through a coupling, a rotating shaft 124, a follower shaft 13 and a driven shaft 14 are rotatably installed in the processing shell 100 respectively, one ends of the rotating shaft 12 and the follower shaft 13 are fixedly connected with a processing round block 123, rotating gears 122 are fixedly sleeved on the outer peripheral surfaces of the rotating shaft 124, the follower shaft 13 and the driven shaft 14, and the four rotating gears 122 are meshed with each other, a follower gear 131 is fixedly sleeved on the outer peripheral surface of one follower shaft 13, a follower gear 141 is fixedly sleeved on the outer peripheral surface of a follower shaft 14, the follower gear 131 is meshed with the follower gear 141, one end of the follower shaft 14 is fixedly connected with a jacking block 143, a sliding block 144 is slidably connected in the jacking block 143, a rubber pad 145 is arranged on one side of the sliding block 144, a linear shaft 15 is rotatably arranged in the bottom plate 11, a transmission belt 142 is jointly arranged on the outer peripheral surfaces of the follower shaft 14 and the linear shaft 15, a circular shaft 16 is rotatably arranged in the clamping shell 101, a transmission belt 151 is jointly arranged on the outer peripheral surfaces of the linear shaft 15 and the circular shaft 16, a hydraulic device 161 is arranged at one end of the circular shaft 16, a jacking block 162 is arranged at the output end of the hydraulic device 161, materials are placed on a processing seat 17 through the arrangement of the clamping processing mechanism 1, the motor 120 and the like, the hydraulic device 161 is started, the material is propped against, then the motor 120 is started, the motor 120 rotates to enable the material and the processing round block 123 to rotate simultaneously, the rotation directions of the processing round block 123 are opposite, and the material rotates to match with the rotation of the processing round block 123, so that the use efficiency is improved.

As shown in fig. 1 to 4, a groove is formed in the top connection block 143, a sliding block 144 is slidably connected in the top connection block 143, and a spring 146 is commonly connected between the sliding block 144 and the inner wall of the groove.

As shown in fig. 1 to 2, a circular hole is formed in the machining housing 100, and the rotation shaft 12 is rotatably mounted in the circular hole.

As shown in fig. 1 to 2, two symmetrically arranged circular grooves are formed in the machining housing 100, and two follower shafts 13 are respectively rotatably mounted in the two circular grooves.

As shown in fig. 1 to 2, a hole groove is formed in the clamp housing 101, and the circular shaft 16 is rotatably installed in the hole groove.

In this embodiment, the material is placed on the processing seat 17, the hydraulic device 161 is started by hand, the hydraulic device 161 drives the jacking block 162 to be pushed forward to the jacking block 143, the jacking block 143 is provided with the sliding block 144, the sliding block 144 is connected with the jacking block 143 by the spring 146, the sliding block 144 is further provided with the rubber pad 145 to prevent the damage to the material during clamping, after the clamping is completed, the motor 120 is started, the motor 120 rotates to drive the rotating shaft 12 to rotate, the rotating shaft 12 rotates to drive one of the rotating gears 122 to rotate, one of the rotating gears 122 rotates to drive the other three rotating gears 122 to rotate, the three rotating gears 122 rotates to drive the rotating shaft 124 and the two follow-up shafts 13 to rotate, the rotating shaft 12 and the rotating shaft 124 rotate to enable the two processing round blocks 123 to rotate in opposite directions to process the material, meanwhile, one of the follow-up gears 131 rotates to drive the driven gears 141 to rotate, the driven shafts 14 simultaneously drive the driving belt 142 and the jacking block 143 to rotate, the driving belt 142 rotates to drive the straight shaft 15 to rotate, the driving belt 15 rotates to drive the driving belt 14 to rotate, and the driven shaft 16 rotates to enable the two round shafts 16 to rotate, and the round shafts 151 to rotate, and the material to rotate.

Example 2

As shown in fig. 1-2, based on the same concept as that of the above embodiment 1, the present embodiment further proposes that the feeding mechanism 2 includes a power device 22, the power device 22 is installed at the top of the feeding seat 21, the top of the feeding seat 21 is installed with a conveying device 23, the top of the bottom plate 11 is fixedly connected with a preset block 24, and the top of the preset block 24 is fixedly connected with a semicircular placement seat 25.

In this embodiment, there is feeding seat 21 on one side of bottom plate 11, there is conveyer 23 on feeding seat 21, conveyer 23 carries the material, has the division board on the conveyer 23, and the guarantee material can be conveyed to the semicircle on the preset piece 24 and place in seat 25, conveniently need take when processing.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a continuous processing equipment of axostylus axostyle, its characterized in that includes centre gripping processing mechanism (1), feeding mechanism (2), bottom plate (11) and pay-off seat (21), centre gripping processing mechanism (1) is including processing casing (100) and centre gripping casing (101), processing casing (100) with centre gripping casing (101) all fixed connection are in the top of bottom plate (11), the top fixedly connected with processing seat (17) of bottom plate (11), the internally mounted of processing casing (100) has motor (120), the output of motor (120) is connected with axis of rotation (12) of coaxial setting through the shaft coupling, rotation axis (124), follow-up shaft (13) and driven shaft (14) are installed in the inside rotation of processing casing (100) respectively, rotation axis (12) with the one end of follow-up shaft (13) is all fixedly connected with processing circle piece (123), rotation axis (124) follow-up shaft (13) and driven shaft (14) all fixed cover is equipped with rotation gear (122) on the outer peripheral face, four rotation gear (120) internally mounted has rotation axis (12), driven shaft (13) are equipped with one of them on the peripheral face (13) and driven shaft (14) is equipped with fixed gear (141), the utility model discloses a hydraulic press, including driven gear (131), driven gear (141), driven shaft (14), driven shaft (15) and hydraulic press, driven gear (131) with driven gear (141) meshes, one end fixedly connected with roof connection piece (143) of driven shaft (14), the inside sliding connection of roof connection piece (143) has sliding block (144), one side of sliding block (144) is provided with rubber pad (145), linear shaft (15) are installed in the inside rotation of bottom plate (11), driven shaft (14) with install drive belt (142) jointly on the outer peripheral face of linear shaft (15), circular shaft (16) are installed in the inside rotation of centre gripping casing (101), linear shaft (15) with conveyer belt (151) are installed jointly on the outer peripheral face of circular shaft (16), hydraulic press (161) are installed to one end of circular shaft (16), top piece (162) are installed to the output of hydraulic press (161).

2. A continuous processing apparatus for shaft rods according to claim 1, characterized in that the feeding mechanism (2) comprises a power device (22), the power device (22) is mounted at the top of the feeding seat (21), the top of the feeding seat (21) is mounted with a conveying device (23), the top of the bottom plate (11) is fixedly connected with a preset block (24), and the top of the preset block (24) is fixedly connected with a semicircle placing seat (25).

3. The shaft rod continuous processing device according to claim 1, wherein the inside of the propping block (143) is provided with a groove, the sliding block (144) is slidably connected inside the propping block (143), and a spring (146) is commonly connected between the sliding block (144) and the inner wall of the groove.

4. A shaft continuous processing apparatus according to claim 1, wherein a circular hole is opened in the interior of the processing housing (100), and the rotation shaft (12) is rotatably installed in the interior of the circular hole.

5. A continuous processing apparatus for shaft rods according to claim 1, wherein two symmetrically arranged circular grooves are provided in the interior of the processing housing (100), and two follower shafts (13) are rotatably installed in the interior of the two circular grooves, respectively.

6. A shaft continuous processing apparatus according to claim 1, wherein the holding housing (101) is internally provided with a hole groove, and the round shaft (16) is rotatably mounted in the hole groove.