CN209969396U - Lifting mechanism for press-fitting liquid storage tank - Google Patents

Abstract

The utility model provides a elevating system for pressure equipment liquid storage pot belongs to pressure equipment technical field. The press-mounting mechanism comprises a machine base, wherein a jacking mechanism and a pressure drop mechanism which can do reciprocating motion along an axial straight line are respectively arranged on two sides of the machine base, a pressing rod is arranged on an output shaft of the pressure drop mechanism, a jacking rod is arranged on an output shaft of the jacking mechanism, a press-mounting component is arranged on the machine base, and a rotating disc is arranged on the press-mounting component in a rotating connection mode. The utility model has the advantages of can realize the serialization operation, large batch production product, production efficiency is high, has avoided human error, has avoided the wearing and tearing of installation component and disc part.

Description

Lifting mechanism for press-fitting liquid storage tank

Technical Field

The utility model belongs to the technical field of the pressure equipment, a elevating system for pressure equipment liquid storage pot is related to.

Background

In the process of press mounting of the cylinder, the round cover part needs to be placed on a mounting platform, under normal conditions, the round cover part is placed at a designated position by adopting a manual method, the mechanical parts on the mounting platform are dense, so that the disc part and the mechanical parts are easy to collide in the placement process, and in the press mounting process, the mechanical parts are easy to collide in hands during working, and workers are injured.

In addition, riveting operation needs to be carried out on a guide pipe in the disc part, in order to guarantee the accuracy of the riveting operation, the disc part needs to be clamped and does not deviate from the position of the disc part, generally, the disc part is squeezed into a riveting operation table through manual operation, however, manual force is limited, and the disc part cannot be squeezed into the riveting operation table completely due to small force, so that the disc part is squeezed in the riveting operation process, the disc part is sunken, and finally the product is unqualified.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a elevating system for pressure equipment liquid storage pot.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a elevating system for pressure equipment liquid storage pot, includes the frame, the both sides of frame are equipped with respectively can be along axial straight reciprocating motion's climbing mechanism and pressure drop mechanism, its characterized in that: the output shaft of the pressure drop mechanism is provided with a pressing rod, the output shaft of the jacking mechanism is provided with a jacking rod, the base is provided with a press fitting part, and the press fitting part is provided with a position rotating disc in a rotating connection mode.

In the lifting mechanism for press-fitting the liquid storage tank, the transposition disc is in a hollow cylindrical shape, and one end of the transposition disc is provided with a bevel edge.

In the lifting mechanism for press-fitting the liquid storage tank, a transverse moving driver fixed on the base is arranged in the press-fitting component.

In the lifting mechanism for press-fitting the liquid storage tank, the output shaft of the transverse moving driver is provided with the rotating driver in a threaded matching and linking manner, and the output shaft of the rotating driver is fixedly matched with the rotating disc.

In the lifting mechanism for press-fitting the liquid storage tank, a receiving groove is arranged in the jacking rod, and a first sensor is arranged in the receiving groove.

In the lifting mechanism for press-mounting the liquid storage tank, the base is provided with a lifting rod fixing seat, the lifting rod is fixed on the lifting rod fixing seat, and the lifting rod fixing seat is provided with two second inductors which are arranged along the axial direction of the lifting rod.

In the lifting mechanism for press-fitting the liquid storage tank, the base is provided with a driving belt feeding groove, the driving belt feeding groove corresponds to the receiving groove in position, and the driving belt feeding groove is positioned above the first sensor.

In the lifting mechanism for press-fitting the liquid storage tank, one end of the transverse moving driver is provided with a limit sensor corresponding to the first sensor.

In the lifting mechanism for press-fitting the liquid storage tank, the base is provided with a clamping seat for clamping a workpiece.

In the lifting mechanism for press-fitting the liquid storage tank, a clamping groove communicated with the receiving groove is arranged in the clamping seat, and the cross-sectional area of the clamping groove is gradually reduced from the pressing rod to the direction of the lifting mechanism.

Compared with the prior art, the utility model has the advantages of:

1. the device uses automatic mechanical device to replace manual operation, improves the speed of replacing parts, can improve production efficiency.

2. Under the work of climbing mechanism and the guiding action of hypotenuse, go into the transposition dish with the dome part card in, prevent that the disc part from droing and block the disc part, make the skew of not taking place the position in riveting operation, solve manual operation and lead to the dome part to place the position not in place, improve product quality.

3. Can realize continuous operation and produce products in large batch. The utility model discloses rational in infrastructure, convenient to use, production efficiency is high, has avoided human error.

Drawings

FIG. 1 is a schematic structural view provided by the present invention;

fig. 2 is a schematic structural view of the index plate.

In the figure, a machine base 100, a jacking mechanism 101, a first sensor 102, a second sensor 103, a jacking rod 104, a receiving groove 105, a jacking rod fixing seat 106, a pressure drop mechanism 201, a pressing rod 202, a pressing component 301, a rotating disk 302, a transverse moving driver 303, a rotating driver 304, a limit sensor 305, a card seat 400, a card slot 401 and a feeding groove 402.

Detailed Description

As shown in fig. 1 and 2, the lifting mechanism for press-fitting the liquid storage tank comprises a base 100, wherein a jacking mechanism 101 and a pressure drop mechanism 201 capable of linearly reciprocating along an axial direction are respectively arranged on two sides of the base 100.

The output shaft of the pressure drop mechanism 201 is provided with a pressing rod 202, the output shaft of the jacking mechanism 101 is provided with a jacking rod 104, the base 100 is provided with a press fitting part 301, and the press fitting part 301 is rotatably connected with a rotating disc 302. In this embodiment, the base 100 is provided with a pressure drop rod fixing seat, and the pressure drop mechanism 201 is fixed on the pressure drop rod fixing seat.

It will be appreciated by those skilled in the art that the jacking mechanism 101 and the pressure drop mechanism 201 may be cylinders or air cylinders.

The indexing disk 302 is in a hollow cylindrical shape, and one end of the indexing disk 302 is provided with a bevel edge. The round cover part is firstly placed into the bevel edge of the indexing disc 302 under the work of the jacking mechanism 101, and the round cover part is clamped into the indexing disc 302 under the work of the jacking mechanism 101 and the guiding action of the bevel edge to prevent the round cover part from falling off.

The press-fitting member 301 is provided with a traverse actuator 303 fixed to the base 100. The traverse actuator 303 controls the horizontal position of the index plate 302.

The output shaft of the traverse actuator 303 is provided with a rotary actuator 304 in a threaded fit connection, and the output shaft of the rotary actuator 304 is fixedly engaged with the index plate 302. The direction of the turning disc 302 is controlled by the rotating driver 304, when the opening direction of the turning disc 302 is downward, the disc parts are put in under the operation of the jacking mechanism 101, the turning driver 304 enables the turning disc 302 to rotate to be placed horizontally at the opening, and the traverse driver 303 works to change the horizontal position of the turning disc 302 for installation.

Those skilled in the art will appreciate that the traverse actuator 303 may be an air cylinder or an oil cylinder, but the repeated actions of the air cylinder or the oil cylinder may cause the life of the air cylinder or the oil cylinder to be shortened, and therefore, in the present embodiment, the operation principle of the traverse actuator 303 is the same as that of a worm gear.

A receiving groove 105 is arranged in the lifting rod 104, and a first inductor 102 is arranged in the receiving groove 105. In this embodiment, a disc is disposed in the disc part, a guide tube is disposed at one end of the disc, the disc part is conveyed to the guide tube by the conveyor belt and placed in the receiving slot 105, and the first sensor 102 controls the pressure drop mechanism 201 and the jacking mechanism 101 to operate after sensing that the guide tube is located in the receiving slot 105.

The engine base 100 is provided with a lifting rod fixing seat 106, the lifting rod 104 is fixed on the lifting rod fixing seat 106, and the lifting rod fixing seat 106 is provided with two second inductors 103 arranged along the axial direction of the lifting rod 104.

The working principle of the second inductor 103 is as follows: the jacking mechanism 101 controls the jacking rod 104 to move upwards, stops moving upwards after the lowest end of the jacking rod 104 and the second sensor 103 above the jacking rod are in the same horizontal position, and stops working of the jacking mechanism 101 when the jacking rod 104 moves downwards to the point that the lowest end of the jacking rod 104 and the second sensor 103 below the jacking rod are in the same horizontal position when the jacking mechanism 101 controls the jacking rod 104 to move downwards.

A belt feed slot 402 is provided in the housing 100, the position of the belt feed slot 402 corresponding to the position of the receiving slot 105, and the belt feed slot 402 is located above the first sensor 102. The conduits in the disk elements pass through the feed chute 402 into the receiving trough 105 under the action of the conveyor belt.

One end of the traverse actuator 303 is provided with a limit sensor 305 corresponding to the first sensor 102. The traverse actuator 303 is operated to control the horizontal position of the index plate 302, and when the index plate 302 is moved to a position corresponding to the limit sensor 305, the operation of the traverse actuator 303 is stopped to make the index plate 302 correspond to the position of the receiving slot 105.

The base 100 is provided with a clamping seat 400 for clamping a workpiece.

A clamping groove 401 communicated with the receiving groove 105 is arranged in the clamping seat 400, and the cross-sectional area of the clamping groove is gradually reduced from the pressing rod 202 to the direction of the jacking mechanism. In this embodiment, the carousel conveying in the carousel part is to draw-in groove 401 in, because the cross-sectional area of draw-in groove is dwindled by compressing tightly pole 202 towards climbing mechanism's direction gradually, under the action of gravity of carousel self, the carousel can be blocked and can not fall in draw-in groove 401.

The utility model discloses a theory of operation is: the transverse moving driver 303 works to move the shifting disc 302 to a position corresponding to the limit sensor 305, the rotating driver 304 works to rotate the shifting disc 302 to a position with an opening facing downwards and corresponding to the clamping groove 401, the disc parts are conveyed into the clamping groove 401 by the conveyor belt and the guide pipe passes through the feeding groove 402 and enters the receiving groove 105, the first sensor 102 senses that the disc parts are positioned right above, the jacking mechanism 101 works to drive the jacking rod 104 to move upwards to a position corresponding to the second sensor 103 above, the disc parts are squeezed into the shifting disc 302 and move out of the clamping groove 401, the pressure dropping mechanism 201 works to control the pressing rod 202 to move downwards to squeeze the guide pipe and rivet the guide pipe, after the riveting operation is completed, the jacking mechanism 101 controls the jacking rod 104 to move downwards to a position corresponding to the second sensor 103 below and prepare for the next work, since the disk part is caught by the indexing plate 302, the disk part does not fall off, and the disk part is rotated to a horizontal position by the operation of the rotary driver 304 to perform installation.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the base 100, the jacking mechanism 101, the first sensor 102, the second sensor 103, the jacking rod 104, the receiving slot 105, the jacking rod fixing seat 106, the pressure drop mechanism 201, the pressing rod 202, the pressing component 301, the indexing disc 302, the traverse actuator 303, the rotary actuator 304, the limit sensor 305, the clamping seat 400, the clamping slot 401, and the feeding slot 402 are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a elevating system for pressure equipment liquid storage pot, includes frame (100), the both sides of frame (100) are equipped with respectively and can follow axial straight reciprocating motion's climbing mechanism (101) and pressure drop mechanism (201), its characterized in that: an output shaft of the pressure drop mechanism (201) is provided with a pressing rod (202), an output shaft of the jacking mechanism (101) is provided with a jacking rod (104), the base (100) is provided with a press fitting component (301), and the press fitting component (301) is provided with a rotating disc (302) in a rotating connection mode.

2. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 1, wherein: the indexing disc (302) is in a hollow cylindrical shape, and one end of the indexing disc (302) is provided with a bevel edge.

3. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 2, wherein: the press-fitting component (301) is internally provided with a transverse moving driver (303) fixed on the machine base (100).

4. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 3, wherein: an output shaft of the transverse moving driver (303) is provided with a rotating driver (304) in a threaded matching and linking mode, and an output shaft of the rotating driver (304) is fixedly matched with the rotating disc (302).

5. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 3, wherein: a receiving groove (105) is arranged in the jacking rod (104), and a first inductor (102) is arranged in the receiving groove (105).

6. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 5, wherein: the lifting rod sensor is characterized in that a lifting rod fixing seat (106) is arranged on the machine base (100), the lifting rod (104) is fixed on the lifting rod fixing seat (106), and two second sensors (103) which are arranged along the axial direction of the lifting rod (104) are arranged on the lifting rod fixing seat (106).

7. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 5, wherein: the machine base (100) is provided with a driving belt feeding groove (402), the position of the driving belt feeding groove (402) corresponds to the position of the receiving groove (105), and the driving belt feeding groove (402) is positioned above the first inductor (102).

8. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 5, wherein: one end of the transverse moving driver (303) is provided with a limit inductor (305) corresponding to the first inductor (102).

9. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 5, wherein: the machine base (100) is provided with a clamping base (400) used for clamping a workpiece.

10. The lifting mechanism for press fitting a fluid reservoir as set forth in claim 9, wherein: a clamping groove (401) communicated with the receiving groove (105) is arranged in the clamping seat (400), and the cross section area of the clamping groove is gradually reduced from the pressing rod (202) to the direction of the jacking mechanism.

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