CN211276297U - Steel bowl equipment under improved generation - Google Patents

Abstract

The utility model belongs to the field of electric vehicle processing, and discloses an improved lower steel bowl device, which comprises a frame, a steel bowl output unit and an upper steel bowl fixing column, wherein the frame is also provided with a transfer unit for transferring the steel bowl output by the steel bowl output unit to the upper adsorption column; the transfer unit comprises a supporting plate, a lifting plate and a supporting seat, wherein the lifting plate is arranged between the output port and the upper adsorption column and is adjacent to the supporting plate; the supporting seat is in sliding fit with the rack; the lifting plate is fixedly connected with the supporting seat through a first lifting cylinder; the supporting plate is fixedly connected with the supporting seat; the supporting seat is connected with a horizontal driving module which is used for driving the lifting plate to reciprocate between the output port and the upper adsorption column; the length of the supporting plate is not less than the distance between the output port and the upper adsorption column; the distance between the upper surface of the supporting plate and the lower surface of the output port is smaller than the height of the steel bowl; and the lifting plate is provided with a fixing hole matched with the steel bowl in shape. The equipment is simple in structure and convenient and fast to operate.

Description

Steel bowl equipment under improved generation

Technical Field

The utility model relates to an electric motor car processing field, especially a steel bowl equipment under improved generation.

Background

The applicant provides a utility model patent application CN 201721383268.3 in 2017 and discloses a simple front fork steel bowl assembling machine, which comprises a frame, an upper punch component, a lower punch component and a front fork placing base, wherein the front fork placing base is fixed on the frame, the front side of the front fork placing base is provided with a positioning groove for a steering shaft of a front fork to be vertically placed from the front side, the lower punch component comprises a lower punch and a lower punch seat, the lower punch seat is fixed on the front fork placing base, the lower punch is replaceably placed on the lower punch seat, the front sides of the lower punch and the lower punch seat are respectively provided with a side opening for the steering shaft of the front fork to be vertically placed from the front side, the side openings are communicated with the positioning groove, the upper punch component comprises an upper punch, a pressure cylinder and a pressure cylinder mounting seat, the pressure cylinder mounting seat is fixed on the frame, a cylinder body of the pressure cylinder is fixed on the pressure cylinder mounting seat, a push rod of the pressure cylinder and the upper punch, the upper punch is opposite to the lower punch. The utility model discloses a lower punch adopts the open type, can the edgewise material loading, replaces the top and inserts the material loading, makes the material loading simpler.

Meanwhile, the application also provides a temporarily unauthorized published utility model patent application before the application, and the manipulator is adopted to transfer the steel bowl to the upper steel bowl fixing column.

Before transformation, in the steel bowl processing equipment, a manipulator is basically adopted for realizing steel bowl transfer, and the manipulator is complex in structure and high in cost.

Therefore, the technical problem that this application solved is: how to reduce the equipment cost and simplify the steel bowl transferring operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel bowl equipment under improved generation, this equipment structure is simple, the simple operation.

The utility model provides a technical scheme does: an improved lower steel bowl device comprises a rack, a steel bowl output unit arranged on the rack and used for outputting a steel bowl, and an upper steel bowl fixing column arranged on the rack, wherein an upper adsorption column for adsorbing the steel bowl by magnetic force is arranged at the bottom of the upper steel bowl fixing column; the output port of the steel bowl output unit faces downwards; the height of the lower surface of the upper adsorption column is not less than that of the lower surface of the output port; the rack is also provided with a transfer unit used for transferring the steel bowl output by the steel bowl output unit to the upper adsorption column; the transfer unit comprises a supporting plate, a lifting plate and a supporting seat, wherein the lifting plate is arranged between the output port and the upper adsorption column and is adjacent to the supporting plate; the supporting seat is in sliding fit with the rack; the lifting plate is fixedly connected with the supporting seat through a first lifting cylinder; the supporting plate is fixedly connected with the supporting seat; the supporting seat is connected with a horizontal driving module which is used for driving the lifting plate to reciprocate between the output port and the upper adsorption column; the length of the supporting plate is not less than the distance between the output port and the upper adsorption column; the distance between the upper surface of the supporting plate and the lower surface of the output port is smaller than the height of the steel bowl; and the lifting plate is provided with a fixing hole matched with the steel bowl in shape.

In the improved lower steel bowl device, the steel bowl output unit consists of two guide plates which are vertically arranged side by side; the opposite side surfaces of the two guide plates enclose an accommodating cavity for accommodating the stacked steel bowl, and the tail ends of the two guide plates are the output ports; the guide plate is fixed on the frame.

In the improved lower steel bowl equipment, the rack is provided with a guide rail, and the support seat is in sliding fit with the guide rail; the horizontal driving module is fixed on the frame.

In the steel bowl equipment under above-mentioned improved generation, still include the second lift cylinder that is used for driving upper steel bowl fixed column and reciprocates, second lift cylinder is fixed in the frame.

In the steel bowl equipment under above-mentioned improved generation, still including fixing in the frame and being located the lower steel bowl fixed column under the upper steel bowl fixed column, be equipped with the lower grafting post that is used for cup jointing fixed steel bowl on the lower steel bowl fixed column.

After the technical scheme is adopted in the utility model, its beneficial effect who has is:

this scheme adopts the lifter plate to carry out the transport of steel bowl, adopts the layer board to avoid the steel bowl to drop the external world before fixing the lifter plate, realizes the horizontal transport of steel bowl through horizontal drive module, overlaps the steel bowl through first lift cylinder and adsorbs on living, has realized the automation of steel bowl and has transferred, its simple structure, and it is convenient to maintain.

Drawings

Fig. 1 is a front view of embodiment 1 of the present invention;

fig. 2 is a front view of embodiment 1 of the present invention;

fig. 3 is a front view of embodiment 1 of the present invention;

fig. 4 is a left side view of embodiment 1 of the present invention;

fig. 5 is a top view of the steel bowl output unit according to embodiment 1 of the present invention.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the following detailed description, but the present invention is not limited thereto.

Example 1:

referring to fig. 1-5, an improved lower steel bowl device includes a frame 1, a steel bowl output unit 2 disposed on the frame 1 and used for outputting a steel bowl, and an upper steel bowl fixing column 3 disposed on the frame 1, wherein an upper adsorption column 31 for adsorbing the steel bowl by magnetic force is disposed at the bottom of the upper steel bowl fixing column 3; the output port of the steel bowl output unit 2 faces downwards; the height of the lower surface of the upper adsorption column 31 is not less than that of the lower surface of the output port; the rack 1 is also provided with a transfer unit 4 for transferring the steel bowl output by the steel bowl output unit 2 to the upper adsorption column 31; the transfer unit 4 includes a pallet 41, a lifting plate 42 disposed between the output port and the upper adsorption column 31 and adjacent to the pallet 41, and a support base 43; the supporting seat 43 is in sliding fit with the frame 1; the lifting plate 42 is fixedly connected with the supporting seat 43 through a first lifting cylinder 44; the supporting plate 41 is fixedly connected with the supporting seat 43; the supporting seat 43 is connected with a horizontal driving module 45 for driving the lifting plate 42 to reciprocate between the output port and the upper adsorption column 31; the length of the supporting plate 41 is not less than the distance between the output port and the upper adsorption column 31; the distance between the upper surface of the supporting plate 41 and the lower surface of the output port is smaller than the height of the steel bowl; the lifting plate 42 is provided with a fixing hole 46 matched with the shape of the steel bowl.

The working process is as follows: referring to fig. 1, a large number of steel bowls are placed in the steel bowl output unit 2, the steel bowls are arranged from top to bottom in a stacked manner, the upper surfaces of the supporting plate 41 and the lifting plate 42 are aligned through the first lifting cylinder 44, a small gap such as 1mm or 2mm exists between the supporting plate 41 and the lifting plate 42, the supporting plate 41 and the lifting plate 42 are moved synchronously through the horizontal driving module 45 until the lifting plate 42 reaches the position right below the output port, and referring to fig. 2, the lowest steel bowl falls into the fixing hole 46. The shape of the fixing hole 46 matches the shape of a steel bowl, and the steel bowl can be fixed in the fixing hole 46. The mounting holes 46 are generally selected to match the configuration of the steel bowl below the center thereof. Then, the horizontal driving module 45 drives the supporting plate 41 and the lifting plate 42 to synchronously move towards the upper absorption column 31, referring to fig. 3, until the lifting plate 42 reaches the position right below the upper absorption column 31. In the process, the distance between the supporting plate 41 and the output port is limited, and the steel bowl cannot fall off and can be statically placed at the position of the output port. When the lifting plate 42 reaches the position right below the upper adsorption column 31, the first lifting cylinder 44 drives the lifting plate 42 to ascend until the upper adsorption column 31 is inserted into the steel bowl. The adsorption column is a permanent magnet which can firmly adsorb the steel bowl. Then the first lifting cylinder 44 drives the lifting plate 42 to move downwards to a position flush with the supporting plate 41, and the output of the steel bowl is completed.

Preferably, referring to fig. 5, the steel bowl output unit 2 is composed of two guide plates 21 arranged vertically side by side; the opposite side surfaces of the two guide plates 21 enclose an accommodating cavity 22 for accommodating the stacked steel bowls, and the tail ends of the two guide plates 21 are the output ports; the guide plate 21 is fixed to the frame 1. Furthermore, one side of the guide plate 21 opposite to the other guide plate 21 is provided with a vertically extending groove 23, and the horizontal section of the groove 23 is arc-shaped. The outer diameter of the groove 23 and the steel bowl are exactly the same. The operator adds a steel bowl from the top of the receiving cavity 22. Of course, this embodiment does not exclude the implementation form that the steel bowl output unit 2 is a post sleeved with a steel bowl.

Preferably, a guide rail 11 is arranged on the frame 1, and the support seat 43 is in sliding fit with the guide rail 11; the horizontal driving module 45 is fixed on the frame 1. The horizontal driving module 45 is a horizontal driving cylinder.

As a common technology in the field, the device further comprises a second lifting cylinder 32 for driving the upper steel bowl fixing column 3 to move up and down, and a lower steel bowl fixing column 5 which is fixed on the frame 1 and is positioned right below the upper steel bowl fixing column 3, wherein the second lifting cylinder 32 is fixed on the frame 1; and the lower steel bowl fixing column 5 is provided with a lower sleeving column 51 for sleeving and fixing the steel bowl.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (5)

1. An improved lower steel bowl device comprises a rack, a steel bowl output unit arranged on the rack and used for outputting a steel bowl, and an upper steel bowl fixing column arranged on the rack, wherein an upper adsorption column for adsorbing the steel bowl by magnetic force is arranged at the bottom of the upper steel bowl fixing column; the output port of the steel bowl output unit faces downwards; the height of the lower surface of the upper adsorption column is not less than that of the lower surface of the output port; the machine frame is characterized in that the machine frame is also provided with a transferring unit used for transferring the steel bowl output by the steel bowl output unit to the upper adsorption column; the transfer unit comprises a supporting plate, a lifting plate and a supporting seat, wherein the lifting plate is arranged between the output port and the upper adsorption column and is adjacent to the supporting plate; the supporting seat is in sliding fit with the rack; the lifting plate is fixedly connected with the supporting seat through a first lifting cylinder; the supporting plate is fixedly connected with the supporting seat; the supporting seat is connected with a horizontal driving module which is used for driving the lifting plate to reciprocate between the output port and the upper adsorption column; the length of the supporting plate is not less than the distance between the output port and the upper adsorption column; the distance between the upper surface of the supporting plate and the lower surface of the output port is smaller than the height of the steel bowl; and the lifting plate is provided with a fixing hole matched with the steel bowl in shape.

2. The improved steel bowl discharging device as claimed in claim 1, wherein the steel bowl outputting unit is composed of two guide plates arranged vertically side by side; the opposite side surfaces of the two guide plates enclose an accommodating cavity for accommodating the stacked steel bowl, and the tail ends of the two guide plates are the output ports; the guide plate is fixed on the frame.

3. The improved lower steel bowl apparatus as claimed in claim 1, wherein the frame is provided with a guide rail, and the support seat is slidably engaged with the guide rail; the horizontal driving module is fixed on the frame.

4. The improved lower steel bowl device as claimed in claim 1, further comprising a second lifting cylinder for driving the upper steel bowl fixing column to move up and down, wherein the second lifting cylinder is fixed on the frame.

5. The improved lower steel bowl equipment as claimed in claim 1, further comprising a lower steel bowl fixing column fixed on the frame and located right below the upper steel bowl fixing column, wherein the lower steel bowl fixing column is provided with a lower sleeving connection column for sleeving and fixing the steel bowl.

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