CN209890157U - Multi-station jacking device for object detection - Google Patents

Abstract

The utility model relates to a multistation jacking device for object detection, it includes the mounting panel, the rotation module, lifting module, the ejector pin seat, the ejector pin, ejector pin clamp plate and ejector pin sleeve, the rotation motor of rotation module is installed on the mounting panel through rotating the motor cabinet, lifting module's elevator motor passes through the elevator motor cabinet and installs on the base, ejector pin seat and lifting slide fixed connection, the first end of ejector pin is installed in the ejector pin seat, and through ejector pin clamp plate fixed connection, the ejector pin sleeve is installed in ejector pin sleeve hole, and with mounting panel fixed connection, the second end of ejector pin is installed in the ejector pin sleeve. The utility model provides a multistation jacking device for object detects can realize the integration that the different grade type detected ray source for detection device has wideer detection range, can avoid the mutual interference of a plurality of ray sources while working, has maneuverability is strong, the high advantage of security.

Description

Multi-station jacking device for object detection

Technical Field

The utility model belongs to the technical field of the check out test set, especially, relate to a multistation jacking device for object detects.

Background

The ray detection technology is one of five conventional nondestructive detection methods, and is widely applied to the aspects of quality detection, thickness measurement, article inspection, dynamic research and the like. The principle of ray detection is to transilluminate the material or the test piece by using rays, to check the internal defects or to analyze the crystal structure according to the diffraction characteristics.

In order to obtain good detection effect, different types or dosages of radiation sources are required to be selected according to the type or thickness of an object to be detected. Therefore, the ray detection equipment needs to have a wider detection range, and different types or dosages of ray sources are necessary to be integrated into a multi-station detection device, so that detection of more types of objects is realized, adverse effects are caused by simultaneous working of a plurality of ray sources, and the ray sources which do not work need to be shielded and protected during working of the multi-station detection equipment, and ray leakage is prevented.

SUMMERY OF THE UTILITY MODEL

To the above circumstances, the utility model provides a multistation jacking device for object detection has overcome the not enough of prior art, through the setting of carousel, can realize the different grade type and detect the integration of ray source, make detection device have wideer detection range, can avoid the mutual interference of a plurality of ray sources simultaneous workings simultaneously, simultaneously through setting up elevating module, be used for driving ejector pin rectilinear movement, can realize the ray detection of object and release the object from placing the hole, and the multifunctional mobile phone has the advantages of simple and practical, high maneuverability, and the security is high.

The utility model adopts the technical scheme that a multistation jacking device for object detection is provided, which comprises a mounting plate, a rotating module, a lifting module, a jacking rod seat, a jacking rod pressing plate and a jacking rod sleeve, wherein a first end, a second end and a middle part of the mounting plate are respectively provided with a rotating shaft sleeve hole, a lifting screw hole and a jacking rod sleeve hole, the rotating module comprises a rotating motor, a rotating motor seat, a first rotating gear, a second rotating gear, a rotating shaft sleeve and a turntable, the rotating motor passes through the rotating motor seat and is arranged on the mounting plate, an output shaft of the rotating motor is connected with the first rotating gear, the rotating shaft sleeve is arranged in the rotating shaft sleeve hole and is fixedly connected with the mounting plate, the first end of the rotating shaft passes through the rotating shaft sleeve and is connected with the second rotating gear, the second end of the rotating shaft is connected with the turntable, and the first rotating gear and the second rotating gear are in meshing transmission; the lifting module comprises a lifting motor, a lifting motor base, a first lifting gear, a base, a lifting upright post, a lifting guide rail, a lifting slider, a lifting screw rod, a second lifting gear, a lifting screw nut base and a connecting plate, wherein the lifting motor is arranged on the base through the lifting motor base, an output shaft of the lifting motor is connected with the first lifting gear, a first end of the lifting upright post is fixedly connected with the base, a second end of the lifting upright post is fixedly connected with the mounting plate, the lifting guide rail is arranged on a first side surface of the lifting upright post, the lifting guide rail is in sliding connection with the lifting slider, the lifting screw rod is arranged on a second side surface of the lifting upright post, a first end of the lifting screw rod is supported in the lifting screw rod hole through a bearing, and a second end of the lifting screw rod passes through the base to be connected with the second lifting gear, the first lifting gear is in meshed transmission with the second lifting gear, the lifting screw is in transmission connection with the lifting nut, the lifting nut is fixedly connected with the lifting nut seat, the first end of the connecting plate is fixedly connected with the ejector rod seat, and the second end of the connecting plate is fixedly connected with the lifting nut seat; and the ejector rod seat is fixedly connected with the lifting slide block, the first end of the ejector rod is installed in the ejector rod seat and fixedly connected with the ejector rod pressing plate, the ejector rod sleeve is installed in the ejector rod sleeve hole and fixedly connected with the mounting plate, and the second end of the ejector rod is installed in the ejector rod sleeve.

Further, the equipartition is equipped with places the hole on the carousel, can hold the ray source, the ray source is the ray source of different doses.

Furthermore, lead blocks are arranged between the placing holes, and ray isolation can be carried out on different ray sources.

Preferably, the diameter of the placement hole is larger than the diameter of the top rod.

Preferably, the ejector rod seat and the ejector rod pressing plate are both provided with grooves for fixedly connecting the ejector rods.

Preferably, the axis of the top rod is parallel to the axis of the lifting screw rod.

The utility model discloses a characteristics and beneficial effect are:

1. the utility model provides a pair of a multistation jacking device for object detects through the setting of carousel, can realize that the different grade type detects the integration of radiation source for detection device has wideer detection range.

2. The utility model provides a pair of a multistation jacking device for object detects places and is equipped with the lead block between the hole in the difference, and when appointed ray source during operation, other ray sources are out of work, can avoid the mutual interference of a plurality of ray sources while during operation.

3. The utility model provides a pair of multistation jacking device for object detects simultaneously through setting up lifting module for drive ejector pin rectilinear movement, can realize the ray detection of object and release the object from placing the hole, have simple and practical, maneuverability is strong, advantages such as security height.

Drawings

Fig. 1 is a schematic view of the overall structure of the multi-station jacking device for object detection according to the present invention;

fig. 2 is a schematic view of a mounting plate structure of the multi-station jacking device for object detection according to the present invention;

fig. 3 is a schematic structural view of the rotating module of the present invention;

fig. 4 is a schematic structural view of the lifting module of the present invention; and

fig. 5 is a schematic view of the turntable structure of the present invention.

The main reference numbers:

a mounting plate 1; a rotating shaft sleeve hole 11; a lifting screw hole 12; a top rod sleeve hole 13; a rotating module 2; a rotating electric machine 21; rotating the motor base 22; a first rotating gear 23; a second rotating gear 24; a rotating shaft 25; a rotating sleeve 26; a turntable 27; a placement hole 271; a lifting module 3; a lift motor 31; a lift motor base 32; a first elevating gear 33; a base 34; a lifting column 35; a lifting rail 36; a lifting slider 37; a lifting screw 38; a second lifting gear 39; a lifting nut 310; a lifting nut seat 311; a connecting plate 312; a jack-rod seat 4; a top rod 5; a mandril pressing plate 6; a jack sleeve 7.

Detailed Description

The technical contents, structural features, and achieved objects and effects of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a multistation jacking device for object detection, as shown in figures 1-3, it includes mounting panel 1, rotation module 2, lifting module 3, ejector rod seat 4, ejector rod 5, ejector rod clamp plate 6 and ejector rod sleeve 7, the first end, the second end and the middle part of mounting panel 1 are equipped with rotation axis sleeve hole 11, lifting lead screw hole 12 and ejector rod sleeve hole 13 respectively, rotation module 2 includes rotation motor 21, rotation motor seat 22, first rotation gear 23, second rotation gear 24, rotation axis 25, rotation axle sleeve 26 and carousel 27, rotation motor 21 is installed on mounting panel 1 through rotation motor seat 22, the output shaft of rotation motor 21 is connected with first rotation gear 23, rotation axle sleeve 26 is installed in rotation axle sleeve hole 11, and is fixedly connected with mounting panel 1, the first end of rotation axis 25 passes rotation axle sleeve 26 and is connected with second rotation gear 24, the second end of the rotating shaft 25 is connected with the rotating disc 27, and the first rotating gear 23 and the second rotating gear 24 are in meshing transmission.

As shown in fig. 4, the lifting module 3 includes a lifting motor 31, a lifting motor base 32, a first lifting gear 33, a base 34, a lifting column 35, a lifting guide rail 36, a lifting slider 37, a lifting screw 38, a second lifting gear 39, a lifting screw 310, a lifting screw base 311 and a connecting plate 312, the lifting motor 31 is mounted on the base 34 through the lifting motor base 32, an output shaft of the lifting motor 31 is connected with the first lifting gear 33, a first end of the lifting column 35 is fixedly connected with the base 34, a second end of the lifting column 35 is fixedly connected with the mounting plate 1, a first side of the lifting column 35 is provided with the lifting guide rail 36, the lifting guide rail 36 is slidably connected with the lifting slider 37, a second side of the lifting column 35 is provided with the lifting screw 38, a first end of the lifting screw 38 is supported in the lifting screw hole 12 through a bearing, a second end of the lifting screw 38 passes through the base 34 and is connected with the second lifting gear, first lifting gear 33 and second lifting gear 39 meshing transmission, lifting screw 38 is connected with lifting screw 310 transmission, lifting screw 310 and lifting screw seat 311 fixed connection, the first end and the ejector pin seat 4 fixed connection of connecting plate 312, the second end and the lifting screw seat 311 fixed connection of connecting plate 312, ejector pin seat 4 and lift slider 3 fixed connection, the first end of ejector pin 5 is installed in ejector pin seat 4, and through ejector pin clamp plate 6 fixed connection, ejector pin sleeve 7 is installed in ejector pin sleeve hole 13, and with mounting panel 1 fixed connection, the second end of ejector pin 5 is installed in ejector pin sleeve 7.

As shown in FIG. 5, the rotary plate 27 is uniformly provided with placing holes 271 for containing radiation sources with different dosages, and lead blocks are further arranged between the different placing holes 271 for isolating the radiation sources.

Specifically, the ejector rod seat 4 and the ejector rod pressing plate 6 are both provided with grooves for fixedly connecting the ejector rod 5.

The utility model discloses a concrete operating procedure as follows:

the utility model discloses a multistation jacking device for object detects, as shown in fig. 1 ~ 5, it includes mounting panel 1, rotation module 2, lifting module 3, ejector pin seat 4, ejector pin 5, ejector pin clamp plate 6 and ejector pin sleeve 7, the first end of mounting panel 1, second end and intermediate part are equipped with axis of rotation trepanning 11 respectively, lift screw hole 12 and ejector pin sleeve hole 13, rotation module 2 is including rotating motor 21, rotating motor seat 22, first rotating gear 23, second rotating gear 24, axis of rotation 25, rotate axle sleeve 26 and carousel 27, it installs on mounting panel 1 through rotating motor seat 22 to rotate motor 21, lifting module 3 includes lift motor 31, lift motor seat 32, first lift gear 33, base 34, lift stand 35, lift guide rail 36, lift slider 37, lift lead screw 38, second lift gear 39, lift screw 310, Lifting screw seat 311 and connecting plate 312, elevator motor 31 installs on base 34 through elevator motor seat 32, ejector pin seat 4 and lifting slide 3 fixed connection, and the first end of ejector pin 5 is installed in ejector pin seat 4, and through ejector pin clamp plate 6 fixed connection, ejector pin sleeve 7 installs in ejector pin sleeve hole 13, and with mounting panel 1 fixed connection, the second end of ejector pin 5 is installed in ejector pin sleeve 7.

In the using process, firstly, the rotating motor 21 is started to drive the first rotating gear 23 to rotate, the first rotating gear 23 and the second rotating gear 24 are in meshing transmission, so that the power is transmitted to the rotating shaft 25, further, the rotating disc 27 is driven to rotate, the placing hole 271 where the standby radiation source is located is rotated to the position coaxial with the mandril 5, secondly, the lifting motor 31 is started to drive the first lifting gear 33 to rotate, the first lifting gear 33 and the second lifting gear 39 are in meshing transmission, so that the power is transmitted to the lifting screw 38, further, the lifting screw 38 is in transmission connection with the lifting screw 310, the lifting slide block 37 is driven to slide along the lifting guide rail 36, so that the mandril 5 moves upwards, the mandril 5 lifts the standby radiation source at the position coaxial with the mandril 5 up from the rotating disc 27, namely, the standby radiation source enters a using state, if standby radiation sources with different doses are used, the lifting motor 31 is driven to drive the mandril 5, make ejector pin 5 be located carousel 27 below, the drive rotates motor 21 and drives carousel 27 and rotate this moment, and the hole 271 of placing at the stand-by radiation source place of different doses rotates to the position coaxial with ejector pin 5, starts elevator motor 31 once more and drives ejector pin 5 and upwards removes, can go on the stand-by radiation source jacking of different doses, gets into the user state, can realize the integration of different grade type detection radiation source for detection device has wideer detection range.

The utility model provides a pair of multistation jacking device for object detection, setting through the carousel, can realize the integration that the different grade type detected ray source, make detection device have wideer detection range, be equipped with the lead block between the hole is placed in the difference simultaneously, when appointed ray source during operation, other ray sources are out of work, can avoid the mutual interference of a plurality of ray sources simultaneous workings, in addition through setting up lifting module, be used for driving ejector pin rectilinear movement, can realize the ray detection of object and release the object from placing the hole, and the device has the advantages of simple and practical, high maneuverability, high safety and the like.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the present invention, and it should be understood that various modifications and decorations can be made by those skilled in the art without departing from the technical spirit of the present application and that these modifications and decorations should also be regarded as the scope of the present application.

Claims (6)

1. A multi-station jacking device for object detection is characterized by comprising a mounting plate, a rotating module, a lifting module, a mandril base, a mandril pressing plate and a mandril sleeve,

the first end, the second end and the middle part of the mounting plate are respectively provided with a rotating shaft sleeve hole, a lifting screw hole and an ejector rod sleeve hole, the rotating module comprises a rotating motor, a rotating motor base, a first rotating gear, a second rotating gear, a rotating shaft sleeve and a turntable, the rotating motor is mounted on the mounting plate through the rotating motor base, an output shaft of the rotating motor is connected with the first rotating gear, the rotating shaft sleeve is mounted in the rotating shaft sleeve hole and is fixedly connected with the mounting plate, the first end of the rotating shaft penetrates through the rotating shaft sleeve to be connected with the second rotating gear, the second end of the rotating shaft is connected with the turntable, and the first rotating gear and the second rotating gear are in meshing transmission;

the lifting module comprises a lifting motor, a lifting motor base, a first lifting gear, a base, a lifting upright post, a lifting guide rail, a lifting slider, a lifting screw rod, a second lifting gear, a lifting screw nut base and a connecting plate, wherein the lifting motor is arranged on the base through the lifting motor base, an output shaft of the lifting motor is connected with the first lifting gear, a first end of the lifting upright post is fixedly connected with the base, a second end of the lifting upright post is fixedly connected with the mounting plate, the lifting guide rail is arranged on a first side surface of the lifting upright post, the lifting guide rail is in sliding connection with the lifting slider, the lifting screw rod is arranged on a second side surface of the lifting upright post, a first end of the lifting screw rod is supported in the lifting screw rod hole through a bearing, and a second end of the lifting screw rod passes through the base to be connected with the second lifting gear, the first lifting gear is in meshed transmission with the second lifting gear, the lifting screw is in transmission connection with the lifting nut, the lifting nut is fixedly connected with the lifting nut seat, the first end of the connecting plate is fixedly connected with the ejector rod seat, and the second end of the connecting plate is fixedly connected with the lifting nut seat; and

the ejector rod seat is fixedly connected with the lifting slide block, the first end of the ejector rod is installed in the ejector rod seat and fixedly connected with the ejector rod pressing plate, the ejector rod sleeve is installed in the ejector rod sleeve hole and fixedly connected with the mounting plate, and the second end of the ejector rod is installed in the ejector rod sleeve.

2. The multi-station jacking device for object detection according to claim 1, wherein the rotary table is uniformly provided with placing holes capable of containing ray sources.

3. The multi-station jacking device for object detection according to claim 2, wherein lead blocks are further arranged between the placing holes, and can isolate rays from a ray source.

4. The multi-station jacking device for object detection according to claim 2, wherein the diameter of the placing hole is larger than the diameter of the ejector rod.

5. The multi-station jacking device for object detection according to claim 1, wherein grooves are formed in the ejector rod seat and the ejector rod pressing plate, and are used for fixedly connecting the ejector rods.

6. The multi-station jacking device for object detection according to claim 1, wherein an axis of the jacking rod is parallel to an axis of the lifting screw.

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