CN210088356U - Camera fixing device for intelligent visual detection system equipment - Google Patents

Abstract

The utility model relates to a camera fixing device for intelligent visual inspection system equipment, which comprises a front and a back adjusting part, an upper and a lower angle adjusting part, a left and a right adjusting part and a height adjusting part; the camera is arranged on the front-back adjusting piece and can be adjusted in the front-back direction; the front and rear adjusting piece is connected with the left and right adjusting piece through the up and down angle adjusting piece to respectively realize the up and down angle adjustment and the left and right angle adjustment of the camera; the left and right adjusting pieces are fixed on the height adjusting piece, and the height adjusting piece is used for adjusting the vertical height of the camera. The utility model discloses be convenient for the camera installation to can provide the multidimension degree for the used camera of the intelligent vision detection system equipment of difference and adjust.

Description

Camera fixing device for intelligent visual detection system equipment

Technical Field

The utility model relates to a fixed technical field of camera, concretely relates to camera fixing device for intelligent vision detection system equipment.

Background

At present, in the intelligent identification equipment for the surface characteristics of products, the installation position of a camera is mostly determined in the design of industrial enterprises in the production and manufacturing industry and cannot be adjusted randomly. In the process of product design and assembly trial operation, the problems of camera imaging deviation, unclear performance and the like often occur when assembly trial operation is performed on a production line of a manufacturer due to the fact that the product is in a simulation stage. If the camera fixing frame is improved on a product production line which is provided with intelligent product surface feature recognition equipment, the time of a production enterprise is delayed, the labor is greatly consumed, the cost is increased, and the efficiency is reduced.

In addition, although the existing camera fixing support can realize the adjustment of one dimension, the effective reading of the surface characteristic information of the product on the production line cannot be well met.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem that exists among the prior art, the utility model provides a camera fixing device for intelligent vision detection system equipment, this fixing device can provide the device of being convenient for camera installation, angle regulation and use for different intelligent vision detection system equipment, and it enables the camera and carries out multidimension degree in a certain extent and adjusts, including the great range regulation of vertical, 180 angle modulation from top to bottom, control 180 angle modulation, front and back small amplitude modulation.

In order to achieve the above object, the utility model provides a following technical scheme:

a camera fixing device for intelligent visual detection system equipment is characterized by comprising a front adjusting piece, a rear adjusting piece, an upper angle adjusting piece, a lower angle adjusting piece, a left adjusting piece, a right adjusting piece and a height adjusting piece; the camera is arranged on the front-back adjusting piece and can be adjusted in the front-back direction; the front and rear adjusting piece is connected with the left and right adjusting piece through the up and down angle adjusting piece to respectively realize the up and down angle adjustment and the left and right angle adjustment of the camera; the left and right adjusting pieces are fixed on the height adjusting piece, and the height adjusting piece is used for adjusting the vertical height of the camera.

Further, the height adjusting piece is the synchronous belt drive assembly that sets up perpendicularly from top to bottom, synchronous belt drive assembly includes synchronous belt assembly and drive arrangement, the camera passes through about the adjusting part is fixed on the synchronous belt assembly, drive arrangement passes through synchronous belt assembly drives about the adjusting part reciprocates, and then adjusts the camera height.

Further, the synchronous belt component comprises an upper fixing piece, a fixing base, a synchronous toothed belt, a synchronous pulley, a lower fixing piece, a synchronous pulley wheel shaft and a second bevel gear shaft;

the upper end and the lower end of the synchronous cog belt are internally meshed with the synchronous pulleys respectively, and the two synchronous pulleys are arranged on the upper fixing piece and the lower fixing piece which are arranged up and down through the second bevel gear shaft and the synchronous pulley wheel shaft respectively; the driving device is connected with the second bevel gear shaft, and the synchronous belt pulley is driven to rotate through the second bevel gear shaft so as to drive the synchronous toothed belt to do up-and-down annular motion;

one side of the fixed seat is provided with a tooth-shaped part which is meshed with the synchronous toothed belt, and the left and right adjusting parts are fixed on the fixed seat and move up and down together with the synchronous toothed belt.

Furthermore, the synchronous belt component also comprises guide shafts, the two guide shafts are respectively positioned at two sides of the synchronous toothed belt, and the upper end and the lower end of each guide shaft are respectively fixed on the upper fixing piece and the lower fixing piece; the fixing seat is sleeved on the two guide shafts and can slide on the guide shafts.

Further, the driving device comprises a driving bevel gear, a driven bevel gear, a first bevel gear shaft and a hand wheel;

the hand wheel drives the driving bevel gear to rotate through the first bevel gear shaft; the driving bevel gear is in meshed transmission connection with the driven bevel gear; and the driven bevel gear is connected with the synchronous belt component.

Furthermore, the driving device further comprises a bearing with a clamping handle, and the bearing with the clamping handle is sleeved on the first bevel gear shaft and can lock the first bevel gear shaft.

Further, the left and right adjusting piece comprises a connecting part and a mounting part, and the left and right adjusting piece is fixed on the height adjusting piece through the mounting part;

one end of the connecting part is provided with a longitudinal through groove, the other end of the connecting part is provided with an arc-shaped flat plate, and the mounting part is provided with a transverse through groove; the upper angle adjusting piece and the lower angle adjusting piece are connected with the connecting portion through the longitudinal through groove, the arc-shaped flat plate is installed in the transverse through groove through a second handle screw and can rotate around the second handle screw relative to the installation portion in a left-right mode.

Furthermore, one end of the upper and lower angle adjusting piece is a fixed flat plate, and the other end of the upper and lower angle adjusting piece is an adjusting wheel; the front and rear adjusting pieces are mounted on the fixed flat plate, and the adjusting wheel is connected with the left and right adjusting pieces through a first handle screw and can rotate up and down around the first handle screw.

Further, the front and back adjusting part comprises a sliding block and a set screw, the camera is fixed on the sliding block through the set screw, and the sliding block is installed on the upper and lower angle adjusting part and can slide relative to the upper and lower angle adjusting part.

Furthermore, the front and rear adjusting part also comprises an adjusting bolt and a nut, a sliding groove is formed in the middle of the sliding block, and the adjusting bolt penetrates through the sliding groove and the nut to install the sliding block on the upper and lower angle adjusting part; the adjusting bolt can move in the sliding groove.

The utility model has the advantages that:

the utility model discloses a camera fixing device can be used in the middle of the intelligent visual detection system equipment of difference, and the camera position can be adjusted to the multidimension degree in the installation of the camera of being convenient for, makes its formation of image clear, does not have the deviation, satisfies well and carries out the effective reading of surface characteristic information to the product on the production line, simultaneously, has saved the process of camera mounting redesign, production, and the cost is not only reduced has still practiced thrift the time, has improved efficiency. Furthermore, the utility model discloses simple structure, production and use cost are low, still very big installation and maintenance process of having facilitated. And the utility model discloses a manual regulation, the operator can make the camera be in the optimum position through components such as hand wheel, initiative and driven bevel gear, synchronous pulley according to imaging information, and the accurate surface characteristic who reads the online product.

Drawings

FIG. 1 is a perspective view of a camera fixture for an intelligent vision inspection system apparatus according to the present invention;

FIG. 2 is a schematic structural view of the front and rear adjusting members of the present invention;

FIG. 3 is a schematic view of the connection between the front and rear adjusting members and the up and down angle adjusting members of the present invention;

FIG. 4 is a schematic structural view of the middle vertical angle adjusting member and the left and right adjusting members of the present invention;

FIG. 5 is a schematic view of the installation of the left and right adjusting members on the height adjusting member of the present invention;

FIG. 6 is a schematic structural view of a height adjusting member of the present invention;

FIG. 7 is a schematic structural view of the middle synchronous belt assembly of the present invention;

FIG. 8 is a schematic view of a driving device of the height adjusting member of the present invention;

fig. 9 is a schematic view of the installation of the handwheel in the present invention;

FIG. 10 is a schematic view of height adjustment in the present invention;

FIG. 11 is a schematic view of a high locking action in the present invention;

FIG. 12 is a schematic view of the adjustment of the vertical and horizontal angles of the present invention;

FIG. 13 is a schematic view of the left and right angle adjustment of the present invention;

FIG. 14 is a first schematic view of the front-back adjustment of the present invention;

fig. 15 is a schematic diagram of the middle front-back adjustment of the present invention.

Wherein: 1-camera, 2-box, 3-front and back adjusting piece, 3.1-slide block, 3.2-fastening screw, 3.3-adjusting bolt, 3.4-sliding groove, 3.5-nut, 4-up and down angle adjusting piece, 4.1-fixed flat plate, 4.2-adjusting wheel, 4.3-first handle screw, 5-left and right adjusting piece, 5.1-connecting piece, 5.1.1-longitudinal through groove, 5.1.2-arc flat plate, 5.2-mounting piece, 5.2.1-transverse through groove, 5.3-second handle screw, 6-height adjusting piece, 6.1-synchronous belt component, 6.1.1-upper fixing piece, 6.1.2-fixing base, 6.1.3-tooth-shaped synchronous belt, 6.1.4-synchronous belt wheel, 6.1.5-lower fixing piece, 6.1.6-synchronous wheel shaft, 6.1.7-second cone shaft, 6.1.8-gear shaft, 6.2-driving bevel gear, 6.3-driven bevel gear, 6.4-first bevel gear shaft, 6.5-bearing fixing seat, 6.6-bearing with clamping handle and 6.7-hand wheel.

Detailed Description

The following description will be made in detail with reference to the accompanying drawings and examples. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

In the present specification, terms of orientation or positional relationship such as up, down, left, right, inside, outside, front, rear, head, and tail are established based on the orientation or positional relationship shown in the drawings. The corresponding positional relationship may also vary depending on the drawings, and therefore, should not be construed as limiting the scope of protection.

The present invention relates to a portable electronic device, and more particularly, to a portable electronic device, which can be connected to a portable electronic device, and can be connected to a portable electronic device through a connection structure, such as a connector, a. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The present embodiment describes a camera fixture for an intelligent visual inspection system device that enables multi-dimensional adjustment of the camera 1 by manual adjustment.

As shown in fig. 1, the fixing device is composed of a front and rear adjusting part 3, an up and down angle adjusting part 4, a left and right adjusting part 5 and a height adjusting part 6, the camera 1 is installed on the up and down angle adjusting part 4 through the front and rear adjusting part 3, the up and down angle adjusting part 4 is installed on the height adjusting part 6 through the left and right adjusting part 5, the height adjusting part 6 is fixed on the case 2, and the case 2 can be replaced by a bracket.

Wherein, the front and back regulating part 3 includes the slider 3.1, the holding screw 3.2, adjusting bolt 3.3 and nut 3.5, as shown in fig. 2 and fig. 3, camera 1 fixes on slider 3.1 through holding screw 3.2, have spout 3.4 in the middle of slider 3.1, spout 3.4 is the heavy groove that has predetermined length, adjusting bolt 3.3 passes spout 3.4 and fixes on upper and lower angle regulating part 4 through nut 3.5, through changing the position of adjusting bolt 3.3 in spout 3.4, and then the front and back position of adjustable camera 1 relative upper and lower angle regulating part 4. In addition, the top end surface of the adjusting bolt 3.3 is not higher than the surface of the sliding block 3.1, so as to avoid damaging the bottom surface of the camera 1.

As shown in fig. 3 and 4, one end of the up-down angle adjusting piece 4 is a fixed flat plate 4.1, the sliding block 3.1 is installed on the fixed flat plate 4.1 through an adjusting bolt 3.3 and a nut 3.5, and the other end of the up-down angle adjusting piece 4 is an adjusting wheel 4.2 connected with the left-right adjusting piece 5.

The left and right adjusting piece 5 comprises a connecting part 5.1 and an installation part 5.2, wherein one end of the connecting part 5.1 is provided with a longitudinal through groove 5.1.1, the other end of the connecting part is an arc-shaped flat plate 5.1.2, and the installation part 5.2 is provided with a transverse through groove 5.2.1. The regulating wheel 4.2 of the upper and lower angle regulating part 4 is arranged in the longitudinal through groove 5.1.1 of the connecting part 5.1 through the first handle screw 4.3, when the first handle screw 4.3 is not locked, the upper and lower angle regulating part 4 can rotate up and down around the first handle screw 4.3, and then the upper and lower angle of the camera 1 can be regulated. The arc flat plate 5.1.2 of connecting portion 5.1 is installed in the horizontal logical groove 5.2.1 of installation department 5.2 through second handle screw 5.3, and when second handle screw 5.3 was not locked, connecting portion 5.1 can be revolved the relative installation department 5.2 of second handle screw 5.3 and is controlled the rotation, and then can control the angle modulation to camera 1. The left and right adjusting member 5 is fixed to the height adjusting member 6 by a mounting portion 5.1, and as shown in fig. 5, the height of the camera 1 is adjusted along with the height adjusting member 6.

The height adjusting member 6 is realized by a synchronous belt transmission assembly vertically arranged up and down, and as shown in fig. 6, the height adjusting member comprises a synchronous belt assembly 6.1, a driving bevel gear 6.2, a driven bevel gear 6.3 and a hand wheel 6.7. As shown in fig. 7, the synchronous belt assembly 6.1 includes an upper fixing member 6.1.1, a fixing base 6.1.2, a timing toothed belt 6.1.3, a synchronous pulley 6.1.4, a lower fixing member 6.1.5, a synchronous pulley axle 6.1.6, a guide shaft 6.1.7 and a second bevel gear shaft 6.1.8.

The synchronous belt component 6.1 is vertically installed on the box body 2 through an upper fixing piece 6.1.1 and a lower fixing piece 6.1.5, wherein the middle of the upper fixing piece 6.1.1 and the middle of the lower fixing piece 6.1.5 are relatively provided with installation grooves, the upper end and the lower end of the synchronous toothed belt 6.1.3 are respectively arranged in the installation grooves, two synchronous belt wheels 6.1.4 are respectively arranged in the upper end and the lower end of the synchronous toothed belt 6.1.3, and the synchronous toothed belt 6.1.3 is meshed with the synchronous belt wheels 6.1.4. The upper synchronous pulley 6.1.4 is mounted in the upper fixing piece 6.1.1 through a second bevel gear shaft 6.1.8, and the second bevel gear shaft 6.1.8 drives the synchronous pulley 6.1.4 to rotate together with the driven bevel gear 6.3. The lower synchronous pulley 6.1.4 is mounted on the lower mount 6.1.5 via a synchronous pulley axle 6.1.6 and can rotate synchronously with the upper synchronous pulley 6.1.4 about a synchronous pulley axle 6.1.6.

Two guide shafts 6.1.7 are respectively arranged at the left and right sides of the synchronous cog belt 6.1.3, and the upper and lower ends are respectively fixed on the upper fixing piece 6.1.1 and the lower fixing piece 6.1.5. The fixing seat 6.1.2 is provided with two through holes, the fixing seat 6.1.2 is sleeved on the two guide shafts 6.1.7 through the two through holes, the middle of the fixing seat 6.1.2 is positioned in the synchronous cog belt 6.1.3, the middle of the front end surface of the fixing seat 6.1.2 is provided with a cog which is meshed with the synchronous cog belt 6.1.3, and the synchronous cog belt 6.1.3 drives the fixing seat 6.1.2 to move up and down together. The installation part 5.2 of the left and right adjusting parts 5 is fixed on the front end surface of the fixed seat 6.1.2 through screws, the synchronous cog belt 6.1.3 penetrates through the installation part 5.2 and the fixed seat 6.1.2, and the left and right adjusting parts 5 and the fixed seat 6.1.2 move together through meshing transmission.

The driving bevel gear 6.2 is in meshed transmission connection with the driven bevel gear 6.3, as shown in fig. 8 and 9, the first bevel gear shaft 6.4 is connected with the driving bevel gear 6.2 and penetrates through the bearing fixing seat 6.5 from bottom to top, the driving bevel gear 6.2 is hung on the top of the box body 2 through the bearing fixing seat 6.5, the bearing 6.6 with a clamping handle is sleeved on the first bevel gear shaft 6.4 on the bearing fixing seat 6.5 and can lock the first bevel gear shaft 6.4 through the handle to prevent the first bevel gear shaft from rotating, and the top of the first bevel gear shaft 6.4 penetrates through the box body 2 and is connected with the hand wheel 6.7.

The hand wheel 6.7 drives the driving bevel gear 6.2 to rotate through the first bevel gear shaft 6.4, and drives the driven bevel gear 6.3 to drive the synchronous toothed belt 6.1.3 to move up and down through meshing transmission, so that the height adjusting piece 6 realizes the height adjustment of the camera 1.

The position demand of camera 1 is different among the different intelligent visual detection system equipment, carries out the multidimension degree through the fixing device of this application to camera 1 position and adjusts, makes camera 1 locate in the optimum position, and the accurate surface characteristic who reads the online product.

The height adjustment process of the camera 1 is: as shown in fig. 10, the rotating hand wheel 6.7 drives the synchronous pulley 6.1.4 to rotate through the meshing transmission of the driving bevel gear 6.2 and the driven bevel gear 6.3, the synchronous toothed belt 6.1.3 is wound around the synchronous pulley 6.1.4 to move circularly, and the camera 1 fixed on the synchronous belt assembly 6.1 also moves up and down along with the synchronous belt assembly, so that the purpose of adjusting the height of the camera 1 is achieved.

After adjustment to the desired height of the camera 1, the grip with the grip on the grip bearing 6.6 is locked, fixing the height position of the camera 1, as shown in fig. 11.

The up-down angle adjustment process of the camera 1 is as follows: as shown in fig. 12, the first handle screw 4.3 is slightly unscrewed, the camera 1 can be held by hand to rotate up and down (the maximum angle of rotation can be 90 ° up and down respectively), and after the camera 1 is rotated to the required angle, the first handle screw 4.3 is screwed down to fix the up and down angle position of the camera 1.

The left-right angle adjustment process of the camera 1 is as follows: as shown in fig. 13, the second handle screw 5.3 is slightly unscrewed, the camera 1 can be held by hand to rotate left and right (the maximum angle of rotation can be 90 ° for left and right respectively), and after the camera 1 is rotated to the required angle, the second handle screw 5.3 is screwed down to fix the left and right angle positions of the camera 1.

The adjusting process of the camera 1 at a certain distance back and forth is as follows: as shown in fig. 14 and 15, the nut 3.5 is slightly unscrewed, the adjusting bolt 3.3 is loosened, the slider 3.1 can slide back and forth along the sliding groove 3.4 within a predetermined distance, and the nut 3.5 is locked after sliding to a proper position, so that the back and forth position of the camera 1 can be fixed.

While the principles of the invention have been described in detail in connection with the preferred embodiments thereof, it will be understood by those skilled in the art that the above-described embodiments are merely illustrative of exemplary implementations of the invention and are not limiting of the scope of the invention. The details in the embodiments do not constitute the limitations of the scope of the present invention, and any obvious changes such as equivalent transformation, simple replacement, etc. based on the technical solution of the present invention all fall within the protection scope of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. A camera fixing device for intelligent visual detection system equipment is characterized by comprising a front and back adjusting piece (3), an up and down angle adjusting piece (4), a left and right adjusting piece (5) and a height adjusting piece (6); the camera (1) is arranged on the front-back adjusting piece (3) and can be adjusted in the front-back direction of the camera (1); the front and rear adjusting piece (3) is connected with the left and right adjusting piece (5) through the up and down angle adjusting piece (4) to respectively realize the up and down angle adjustment and the left and right angle adjustment of the camera (1); the left and right adjusting piece (5) is fixed on the height adjusting piece (6), and the height adjusting piece (6) is used for adjusting the vertical height of the camera (1).

2. The camera fixing device for the intelligent visual inspection system equipment according to claim 1, wherein the height adjusting member (6) is a synchronous belt transmission assembly vertically arranged up and down, the synchronous belt transmission assembly comprises a synchronous belt assembly (6.1) and a driving device, the camera (1) is fixed on the synchronous belt assembly (6.1) through the left and right adjusting members (5), and the driving device drives the left and right adjusting members (5) to move up and down through the synchronous belt assembly (6.1), so as to adjust the height of the camera (1).

3. The camera fixing device for the intelligent visual inspection system equipment according to claim 2, wherein the timing belt assembly (6.1) comprises an upper fixing piece (6.1.1), a fixing base (6.1.2), a timing cog belt (6.1.3), a timing pulley (6.1.4), a lower fixing piece (6.1.5), a timing pulley axle (6.1.6) and a second bevel gear axle (6.1.8);

the upper end and the lower end of the synchronous toothed belt (6.1.3) are respectively connected with the synchronous pulleys (6.1.4) in a meshed mode, and the two synchronous pulleys (6.1.4) are respectively installed on the upper fixing piece (6.1.1) and the lower fixing piece (6.1.5) which are arranged up and down through the second bevel gear shaft (6.1.8) and the synchronous pulley wheel shaft (6.1.6); the driving device is connected with the second bevel gear shaft (6.1.8), and the synchronous belt wheel (6.1.4) is driven to rotate through the second bevel gear shaft (6.1.8), so that the synchronous toothed belt (6.1.3) is driven to do up-and-down annular motion;

one side of the fixed seat (6.1.2) is provided with a tooth, the tooth is meshed with the synchronous cog belt (6.1.3), and the left and right adjusting piece (5) is fixed on the fixed seat (6.1.2) and moves up and down together with the synchronous cog belt (6.1.3).

4. The camera fixing device for the intelligent visual inspection system equipment according to claim 3, wherein the synchronous belt assembly (6.1) further comprises guide shafts (6.1.7), two guide shafts (6.1.7) are respectively positioned at two sides of the synchronous cog belt (6.1.3), and the upper end and the lower end of the guide shafts are respectively fixed on the upper fixing piece (6.1.1) and the lower fixing piece (6.1.5); the fixed seat (6.1.2) is sleeved on the two guide shafts (6.1.7) and can slide on the guide shaft (6.1.7).

5. The camera fixing device for the intelligent visual inspection system equipment according to claim 2, wherein the driving device comprises a driving bevel gear (6.2), a driven bevel gear (6.3), a first bevel gear shaft (6.4), a hand wheel (6.7);

the hand wheel (6.7) drives the driving bevel gear (6.2) to rotate through the first bevel gear shaft (6.4); the driving bevel gear (6.2) is in meshed transmission connection with the driven bevel gear (6.3); the driven bevel gear (6.3) is connected with the synchronous belt component (6.1).

6. The camera fixing device for the intelligent visual inspection system equipment according to claim 5, wherein the driving device further comprises a bearing with clamping handle (6.6), the bearing with clamping handle (6.6) is sleeved on the first bevel gear shaft (6.4) and can lock the first bevel gear shaft (6.4).

7. The camera fixing device for the intelligent visual inspection system equipment according to claim 1, wherein the left and right adjusting piece (5) comprises a connecting part (5.1) and a mounting part (5.2), and the left and right adjusting piece (5) is fixed on the height adjusting piece (6) through the mounting part (5.2);

one end of the connecting part (5.1) is provided with a longitudinal through groove (5.1.1), the other end of the connecting part is provided with an arc-shaped flat plate (5.1.2), and the mounting part (5.2) is provided with a transverse through groove (5.2.1); angle adjusting part (4) pass through from top to bottom longitudinal groove (5.1.1) with connecting portion (5.1) link to each other, install through second handle screw (5.3) arc flat board (5.1.2) transversely lead to in groove (5.2.1), and can center on second handle screw (5.3) are relative installation department (5.2) is rotated about.

8. The camera fixing device for the intelligent visual inspection system equipment according to claim 1, wherein one end of the up-down angle adjusting piece (4) is a fixing flat plate (4.1), and the other end is an adjusting wheel (4.2); the front and rear adjusting pieces (3) are installed on the fixed flat plate (4.1), and the adjusting wheel (4.2) is connected with the left and right adjusting pieces (5) through a first handle screw (4.3) and can rotate up and down around the first handle screw (4.3).

9. The camera fixing device for the intelligent visual inspection system equipment according to claim 1, wherein the front and back adjusting piece (3) comprises a sliding block (3.1) and a set screw (3.2), the camera (1) is fixed on the sliding block (3.1) through the set screw (3.2), and the sliding block (3.1) is installed on the up and down angle adjusting piece (4) and can slide relative to the up and down angle adjusting piece (4).

10. The camera fixing device for the intelligent visual inspection system equipment according to claim 9, wherein the front and back adjusting piece (3) further comprises an adjusting bolt (3.3) and a nut (3.5), the sliding block (3.1) is provided with a sliding groove (3.4) in the middle, the adjusting bolt (3.3) penetrates through the sliding groove (3.4) and the nut (3.5) to install the sliding block (3.1) on the upper and lower angle adjusting piece (4); the adjusting screw (3.3) can be moved in the sliding groove (3.4).

Images