CN216543374U - Efficient shell transplanting device - Google Patents

Abstract

The utility model discloses a high-efficiency shell transplanting device which comprises a support, wherein an electric cylinder mounting seat is arranged at the top of the support, a horizontally arranged sliding groove is formed in one side surface of the electric cylinder mounting seat, a lead screw is arranged in the sliding groove, one end of the lead screw is connected with a first power device positioned on the electric cylinder mounting seat, the lead screw is connected with a sliding block positioned on the sliding groove through a nut sleeve, one side surface, away from the sliding groove, of the sliding block is connected with a mounting plate, a second power device is arranged on one side surface, away from the sliding block, of the mounting plate, a lifting rod of the second power device is connected with a lifting plate, the vertical part of the lifting plate is connected with the second power device, and a first rotating clamping jaw air cylinder, a second rotating clamping jaw air cylinder and a third rotating clamping jaw air cylinder which are uniformly distributed are arranged on the horizontal part of the lifting plate. The efficient shell transplanting device adopting the structure can be used for quickly transplanting the shell of the automobile pipe joint component, and can also drive the shell to rotate so as to ensure the smooth assembly action.

Description

Efficient shell transplanting device

Technical Field

The utility model relates to the technical field of shell transplanting devices, in particular to an efficient shell transplanting device.

Background

With the development of economy and the progress of science and technology, the manufacturing industry gradually realizes mechanized production, but in the assembly process of the automobile pipe joint component, because the parts such as the isolating ring, the sealing ring, the safety ring and the like are assembled, the assembly, the air tightness detection and the drawing force detection of the lock spring lock catch are required to be sequentially carried out on different stations, the quick transplanting of the automobile pipe joint component cannot be carried out in the prior art, so the manual transplanting is still carried out at present mostly, the assembly efficiency of the automobile pipe joint component is low, and the manual labor cost is high. In addition, since there are various types of housings of the automotive pipe joint component, during the assembly, the air tightness detection and the pull-out force detection of the latch, the housing may need to be rotated by a certain angle to ensure the smooth assembly operation, for example, when the housing is transferred from the assembly station of the parts such as the isolating ring, the sealing ring and the safety ring to the assembly station of the latch, the housing placement angle needs to be adjusted to facilitate the assembly operation of the latch, and therefore a novel housing transplanting device is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an efficient shell transplanting device which can be used for quickly transplanting a shell of an automobile pipe joint component and can also be used for driving the shell to rotate so as to ensure the smooth assembly.

In order to achieve the purpose, the utility model provides a high-efficiency shell transplanting device which comprises a support, wherein an electric cylinder mounting seat is arranged at the top of the support, a horizontally arranged sliding groove is formed in one side surface of the electric cylinder mounting seat, a lead screw is arranged in the sliding groove, one end of the lead screw is connected with a first power device arranged on the electric cylinder mounting seat, the lead screw is connected with a sliding block arranged on the sliding groove through a nut sleeve, one side surface, away from the sliding groove, of the sliding block is connected with a mounting plate, a second power device is arranged on one side surface, away from the sliding block, of the mounting plate, a lifting rod of the second power device is connected with a lifting plate, a vertical part of the lifting plate is connected with the second power device, a horizontal part of the lifting plate is arranged in parallel to the sliding groove, and the horizontal part of the lifting plate is provided with first rotating clamping jaw air cylinders, uniformly distributed, A second rotating jaw cylinder and a third rotating jaw cylinder.

Preferably, the first power device is a servo motor, and the second power device is an air cylinder.

Preferably, the top surface of electricity jar mount pad is equipped with the mounting groove, be equipped with the tow chain in the mounting groove, the end of tow chain pass through the connecting rod with the top of mounting panel is connected.

Preferably, the first rotary clamping jaw cylinder, the second rotary clamping jaw cylinder and the third rotary clamping jaw cylinder respectively comprise a stepping motor connected with the lifting plate and a clamping jaw cylinder connected with the stepping motor.

Therefore, the efficient shell transplanting device adopting the structure can quickly transplant the shell of the automobile pipe joint component, and can rotate with the shell to ensure the smooth assembly.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic view of an embodiment of the efficient shell transplanting device of the present invention.

Reference numerals

1. A support; 2. an electric cylinder mounting base; 3. a chute; 4. a first power unit; 5. mounting a plate; 6. a second power unit; 7. a lifting plate; 8. a first rotating jaw cylinder; 9. a second rotating jaw cylinder; 10. a third rotating jaw cylinder; 11. mounting grooves; 12. a drag chain; 13. a connecting rod.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of an embodiment of the efficient shell transplanting device, and as shown in the figure, the efficient shell transplanting device comprises a support 1, an electric cylinder mounting base 2 is arranged at the top of the support 1, a sliding groove 3 horizontally arranged is formed in one side surface of the electric cylinder mounting base 2, a lead screw is arranged in the sliding groove 3, one end of the lead screw is connected with a first power device 4 located on the electric cylinder mounting base 2, the first power device 4 is a servo motor, the lead screw is connected with a sliding block located on the sliding groove 3 through a nut sleeve, and the first power device 4 can drive the lead screw to rotate so as to drive the sliding block to reciprocate on the sliding groove 3.

One side face of the sliding block, which is far away from the sliding groove 3, is connected with the mounting plate 5, and the mounting plate 5 can move along with the sliding block. A second power device 6 is arranged on one side face, far away from the sliding block, of the mounting plate 5, the second power device 6 is an air cylinder, a lifting rod of the second power device 6 is connected with the lifting plate 7, and the second power device 6 can drive the lifting plate 7 to perform lifting movement. The vertical portion of lifter plate 7 is connected with second power device 6, and the horizontal part and the 3 parallel arrangement of spout of lifter plate 7, and the horizontal part of lifter plate 7 is equipped with evenly distributed's first rotatory clamping jaw cylinder 8, the rotatory clamping jaw cylinder 9 of second and the rotatory clamping jaw cylinder 10 of third, and first rotatory clamping jaw cylinder 8, the rotatory clamping jaw cylinder 9 of second and the rotatory clamping jaw cylinder 10 of third can snatch and rotate the casing. First rotatory clamping jaw cylinder 8, the rotatory clamping jaw cylinder 9 of second and the rotatory clamping jaw cylinder 10 of third all include the step motor who is connected with lifter plate 7 and the clamping jaw cylinder of being connected with step motor, and step motor can realize the rotation of the arbitrary angle of clamping jaw cylinder, and the clamping jaw cylinder can realize snatching the casing.

The top surface of electricity jar mount pad 2 is equipped with mounting groove 11, be equipped with tow chain 12 in the mounting groove 11, the end of tow chain 12 is connected with mounting panel 5's top through connecting rod 13, tow chain 12 can play certain guide effect to mounting panel 5's removal, and then increase the stability of mounting panel 5 when moving along with the slider, tow chain 12 can be to the cable on the first power device 4 in addition, trachea on the second power device 6, first rotatory clamping jaw cylinder 8, the electric wire and the trachea of connecting play and pull and guard action on second rotatory clamping jaw cylinder 9 and the third rotatory clamping jaw cylinder 10, prevent that the pipeline is mixed and disorderly and influence the normal operating of whole device.

When the device is used, the first power device 4 is started to enable the mounting plate 5 to move horizontally, further enable the third rotary clamping jaw cylinder 10 to move above a shell body assembled with objects such as a sealing ring, a separating ring and the like, the second rotary clamping jaw cylinder 9 is located above a spring lock catch assembling station, the first rotary clamping jaw cylinder 8 is located above an air tightness detection station, the second power device 6 is started to enable the mounting plate 5 to descend, the first rotary clamping jaw cylinder 8, the second rotary clamping jaw cylinder 9 and the third rotary clamping jaw cylinder 10 are started to enable the third rotary clamping jaw cylinder 10 to grab the shell body assembled with objects such as a sealing ring, a separating ring and the like, the second rotary clamping jaw cylinder 9 grabs the shell body assembled with a spring lock catch, the first rotary clamping jaw cylinder 8 grabs the shell body which is detected to be air tightness, the second power device 6 is started to enable the lifting plate 7 to ascend and reset, the first power device 4 is started to enable the mounting plate 5 to move horizontally in a reverse direction, then the third rotary clamping jaw cylinder 10 moves to the position above the lock spring lock catch assembling station, the second rotary clamping jaw cylinder 9 is positioned above the air tightness detecting station, the first rotary clamping jaw cylinder 8 is positioned above the drawing force detecting station, the second power device 6 is started to lower the mounting plate 5, the first rotary clamping jaw cylinder 8, the second rotary clamping jaw cylinder 9 and the third rotary clamping jaw cylinder 10 are started to enable the third rotary clamping jaw cylinder 10 to assemble the sealing ring, the shell of the object such as the isolating ring and the like is rotated by a proper angle and then placed into a lock spring lock catch assembly station, the shell assembled with the lock spring lock catch is rotated by a proper angle and then placed into an air tightness detection station by a second rotary clamping jaw air cylinder 9, and the shell subjected to air tightness detection is rotated by a proper angle and then placed into a drawing force detection station by a first rotary clamping jaw air cylinder 8, so that one-time quick transplanting action of the shell of the automobile pipe joint component is completed.

Therefore, the efficient shell transplanting device adopting the structure can quickly transplant the shell of the automobile pipe joint component, and can rotate with the shell to ensure the smooth assembly.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the utility model without departing from the spirit and scope of the utility model.

Claims (4)

1. The utility model provides a high-efficient type shell transplanting device which characterized in that: the lifting device comprises a bracket, the top of support is equipped with the electricity jar mount pad, be equipped with the spout that the level set up on the side of electricity jar mount pad, be equipped with the lead screw in the spout, the one end of lead screw with be located first power device on the electricity jar mount pad is connected, the lead screw pass through nut sleeve and be located slider on the spout is connected, the slider is kept away from a side and the mounting panel of spout are connected, the mounting panel is kept away from be equipped with second power device on the side of slider, second power device's lifter is connected with the lifter plate, the vertical portion of lifter plate with second power device connects, the horizontal part of lifter plate with spout parallel arrangement, just the horizontal part of lifter plate is equipped with evenly distributed's first rotatory clamping jaw cylinder, second rotatory clamping jaw cylinder and the rotatory clamping jaw cylinder of third.

2. The efficient shell transplanting device of claim 1, wherein: the first power device is a servo motor, and the second power device is an air cylinder.

3. The efficient shell transplanting device as recited in claim 2, wherein: the top surface of electricity jar mount pad is equipped with the mounting groove, be equipped with the tow chain in the mounting groove, the end of tow chain pass through the connecting rod with the top of mounting panel is connected.

4. A high efficiency hull transplanting device as defined in claim 3, wherein: the first rotary clamping jaw cylinder, the second rotary clamping jaw cylinder and the third rotary clamping jaw cylinder respectively comprise a stepping motor connected with the lifting plate and a clamping jaw cylinder connected with the stepping motor.

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