CN211136980U - Detector installation and upset platform - Google Patents

Abstract

The utility model relates to the technical field of CT equipment manufacturing, in particular to a detector mounting and overturning platform, which comprises a rectangular frame platform, wherein a pillar is connected below the rectangular frame platform, bearing seats are arranged on the long edge of the rectangular frame platform, a rotating shaft is connected between the two bearing seats, and a connecting rod for connecting a detector is connected on the rotating shaft; fixing mechanism components are arranged on two sides of the rectangular frame platform in the rotating direction of the rotating shaft, and at least one fixing mechanism component is connected with a supporting shaft used for limiting the rotation of the detector; has the advantages that: the rotating shaft is arranged on the rectangular frame platform, the fixing mechanism components are arranged at two ends of the rectangular frame platform, when the rectangular frame platform is installed, the detector is fixed and supported through the fixing mechanism, so that the rectangular frame platform is convenient to install, and after the rectangular frame platform is installed, the detector can be turned over by taking the rotating shaft as a fulcrum through fixing removal; the device simple structure, convenient to use, the cost is lower, can effectively improve the installation effectiveness of CT machine simultaneously.

Description

Detector installation and upset platform

Technical Field

The utility model relates to a CT equipment manufacturing technical field especially relates to a detector installation and upset platform.

Background

As shown in fig. 1, which is a schematic structural diagram of a CT detector, after the CT detector is assembled, the CT detector needs to be mounted on a rack after being turned over, and in the prior art, large hoisting equipment is needed for assistance, and the hoisting height is manually controlled to turn over, so that the operation needs many people for coordination, the number of unstable factors is large, potential safety hazards exist, and the efficiency is high.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, an object of the utility model is to provide a detector installation and upset platform for reduce the degree of difficulty of CT detector upset, improve production efficiency.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

a detector mounting and overturning platform comprises a rectangular frame platform, wherein a support column is connected below the rectangular frame platform, bearing seats are arranged on the long side of the rectangular frame platform, a rotating shaft is connected between the two bearing seats, and a connecting rod for connecting a detector is connected to the rotating shaft; the two sides of the rectangular frame platform in the rotating direction of the rotating shaft are provided with fixing mechanism components, and at least one fixing mechanism component is connected with a supporting shaft used for limiting the rotation of the detector.

Furthermore, the fixed mechanism assembly comprises a half-moon-shaped base fixedly connected with the rectangular frame platform and a half-moon-shaped pressing cover connected with the half-moon-shaped base, and the half-moon-shaped base and the half-moon-shaped pressing cover are connected to form an installation cavity for fixing the support shaft.

Furthermore, a fixed establishment subassembly includes two half moon shape bases and two half moon shape glands, half moon shape base is fixed on the long limit of rectangle frame platform, and the setting of two half moon shape bases symmetries on every long limit of rectangle frame platform is in the bearing frame both sides.

Furthermore, the middle part of the connecting rod is provided with a rotating shaft mounting hole, and two ends of the connecting rod are provided with supporting shaft mounting holes.

Furthermore, a first screw hole arranged along the circumferential direction of the supporting shaft mounting hole is formed in the connecting rod, and a first screw used for being connected with the detector is arranged in the first screw hole.

Further, the detector comprises a cushion pad, and the cushion pad is placed between the first screw hole and the detector.

Furthermore, the two connecting rods are used for being placed on two sides of the width direction of the detector, at least one connecting rod is provided with a second screw hole which is circumferentially arranged along the mounting hole of the rotating shaft, the rotating shaft is fixedly connected with a flange plate opposite to the second screw hole, and a second screw connected with the flange plate is arranged in the second screw hole.

Further, a handle is included for connection with the probe.

Further, the handle comprises an upper handle and a lower handle, wherein the upper handle is used for being installed on the front surface of the detector, and the lower handle is used for being installed on the back surface of the detector.

The utility model has the advantages that: the rotating shaft is arranged on the rectangular frame platform, the fixing mechanism components are arranged at two ends of the rectangular frame platform, when the rectangular frame platform is installed, the detector is fixed and supported through the fixing mechanism, so that the rectangular frame platform is convenient to install, and after the rectangular frame platform is installed, the detector can be turned over by taking the rotating shaft as a fulcrum through fixing removal; the device simple structure, convenient to use, the cost is lower, can effectively improve the installation effectiveness of CT machine simultaneously.

Drawings

FIG. 1 is a schematic view of a CT detector configuration;

fig. 2 is a schematic configuration diagram of the present invention in an embodiment;

FIG. 3 is a schematic view showing the connection relationship between the support shaft and the half-moon shaped base and the half-moon shaped gland in the embodiment;

FIG. 4 is a diagram of the connection of a CT detector to a mounting and flipping platform in an embodiment;

FIG. 5 is a diagram illustrating a connection relationship between a connecting rod and a CT detector;

description of reference numerals:

rectangular frame platform 1, pillar 2, bearing frame 3, pivot 4, connecting rod 5, back shaft 6, half moon shape base 7, half moon shape gland 8, pivot mounting hole 9, back shaft mounting hole 10, screw 11, screw two 12, blotter 13, ring flange 14, go up handle 15, lower handle 16, fixed chamber 17, screw 18, screw two 19, hole for hoist 20, support 21.

Detailed Description

The present invention will be described in further detail with reference to examples.

This embodiment provides a detector installation and upset platform, as shown in fig. 2, including rectangular frame platform 1, there is pillar 2 below rectangular frame platform 1, the middle part on the long limit of rectangular frame platform 1 is fixed with bearing frame 3, even there is pivot 4 between two bearing frames 3, the both ends on the every long limit of rectangular frame platform 1 all are fixed with half moon shape base 7, even there is half moon shape gland 8 on the half moon shape base 7, the setting of two half moon shape base 7 symmetries on the every long limit of rectangular frame platform 1 is in bearing frame 3 both sides, as shown in fig. 3, half moon shape base 7 and half moon shape gland 8 connect and form a fixed chamber 17, in this embodiment, it has a back shaft 6 to be located to link between the left two fixed chambers 17 of fig. 2.

This embodiment installation and upset platform still include two connecting rods 5, and the middle part of connecting rod 5 is equipped with pivot mounting hole 9, and the both ends of connecting rod 5 are equipped with supporting axle mounting hole 10, sets up screw 11 of arranging along supporting axle mounting hole 10 circumference on the connecting rod 5, is equipped with screw 18 that is used for being connected with the detector in screw 11. One of the connecting rods 5 is provided with a second screw hole 12 circumferentially arranged along the rotating shaft mounting hole 9, the rotating shaft 4 is fixedly connected with a flange 14 opposite to the second screw hole 12, and a second screw 19 connected with the flange 14 is arranged in the second screw hole 12.

Fig. 4 is a schematic diagram of a state of the mounting and overturning platform of the present embodiment when applied to the probe mounting. As shown in fig. 1, a detector in the prior art includes a support 21 and a detector module mounted on the support 21, where the support 21 is provided with a hoisting hole 20, before the detector is mounted, one end of a support shaft 6 in this embodiment is fixed in a fixed cavity 17 at the end, and the other end of the support shaft 6 sequentially passes through a support shaft mounting hole 10 of one of the connecting rods 5, the hoisting hole 20 of the detector support 21, and a support shaft mounting hole 10 of the other connecting rod 5 and then is connected and fixed with the fixed cavity 17 at the other end; one end of the rotating shaft 4 is connected with the bearing seat 3 at the end, and the other end of the rotating shaft 4 sequentially penetrates through the rotating shaft mounting hole 9 of one connecting rod 5 and the rotating shaft mounting hole 9 of the other connecting rod 5 and then is connected with the bearing seat 3 at the other end; and then the connecting rods 5 are fixedly connected with the detector through the first screws 18, and one connecting rod 5 is connected with the flange plate 14 on the rotating shaft 4 through the second screws 19. When the both ends of back shaft 6 are fixed by fixed chamber 17, because the restriction of back shaft 6, make the detector can not overturn round pivot 4, after the detector installation finishes, open the fixed chamber 17 of back shaft 6 both sides, make back shaft 6 obtain the degree of freedom, give the detector application of force this moment, make it overturn 180 around pivot 4, the upset of detector makes back shaft 6 that is located one end fixed chamber 17 overturn to the fixed chamber 17 of the other end in, later close the fixed chamber 17 of the other end, make back shaft 6 fix again on rectangular frame platform 1, accomplish the upset of detector with this.

In order to prevent the probe from hitting the ground during the probe tip, the height of the support column 2 needs to be set to be at least greater than half the length of the probe.

Because the detector is fixedly connected with the connecting rod 5 through the first screw 18, in order to prevent the connecting rod 5 from influencing the appearance of the detector, a cushion pad 13 is arranged between the first screw 11 and the detector.

In order to facilitate the turning of the detector, a handle is further arranged on a support 21 of the detector and is positioned at one end, close to the support shaft 6, of the detector, preferably, the handle is divided into an upper handle 15 installed on the front face of the detector and a lower handle 16 installed on the back face of the detector, and the upper handle 15 and the lower handle 16 are designed to facilitate the holding and pinching of the detector when the detector is turned by an installer.

The mounting and tilting platform is equally applicable to other mounting assemblies and the above embodiments are intended only to illustrate the inventive concept and not to limit the scope of the invention, which is intended to be covered by the claims.

Claims (9)

1. A detector installation and upset platform which characterized in that: the detector comprises a rectangular frame platform, wherein a support column is connected below the rectangular frame platform, bearing seats are arranged on the long side of the rectangular frame platform, a rotating shaft is connected between the two bearing seats, and a connecting rod for connecting a detector is connected to the rotating shaft; the two sides of the rectangular frame platform in the rotating direction of the rotating shaft are provided with fixing mechanism components, and at least one fixing mechanism component is connected with a supporting shaft used for limiting the rotation of the detector.

2. A probe mounting and flipping platform as claimed in claim 1 wherein: the fixing mechanism assembly comprises a half-moon-shaped base fixedly connected with the rectangular frame platform and a half-moon-shaped pressing cover connected with the half-moon-shaped base, and the half-moon-shaped base and the half-moon-shaped pressing cover are connected to form an installation cavity for fixing the supporting shaft.

3. A probe mounting and flipping platform as claimed in claim 1 wherein: the fixing mechanism component comprises two half-moon-shaped bases and two half-moon-shaped pressing covers, the half-moon-shaped bases are fixed on the long edges of the rectangular frame platform, and the two half-moon-shaped bases on each long edge of the rectangular frame platform are symmetrically arranged on two sides of the bearing seat.

4. A probe mounting and flipping platform as claimed in claim 3 wherein: the middle part of connecting rod is equipped with the pivot mounting hole, and the both ends of connecting rod are equipped with the back shaft mounting hole.

5. A probe mounting and flipping platform as claimed in claim 4 wherein: the connecting rod is provided with a first screw hole which is circumferentially arranged along the supporting shaft mounting hole, and a first screw used for being connected with the detector is arranged in the first screw hole.

6. A probe mounting and flipping platform as claimed in claim 5 wherein: the buffer cushion is placed between the first screw hole and the detector.

7. A probe mounting and flipping platform as claimed in claim 4 wherein: the connecting rods are two, the two connecting rods are used for being placed on two sides of the width direction of the detector, at least one connecting rod is provided with a second screw hole circumferentially arranged along the rotating shaft mounting hole, the rotating shaft is fixedly connected with a flange plate opposite to the second screw hole, and a second screw connected with the flange plate is arranged in the second screw hole.

8. A probe mounting and flipping platform as claimed in claim 1 wherein: including a handle for attachment to the probe.

9. A probe mounting and flipping platform as claimed in claim 8 wherein: the handle comprises an upper handle and a lower handle, wherein the upper handle is used for being arranged on the front surface of the detector, and the lower handle is used for being arranged on the back surface of the detector.

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