CN211680948U

CN211680948U - Boring machine workbench for cambered surface shell part

Info

Publication number: CN211680948U
Application number: CN202020173955.8U
Authority: CN
Inventors: 宁向阳; 王浦君; 王志亮; 李建云; 张孝敬
Original assignee: Qingdao Liangbo Heavy Machinery Co ltd
Current assignee: Qingdao Liangbo Heavy Machinery Co ltd
Priority date: 2020-02-15
Filing date: 2020-02-15
Publication date: 2020-10-16
Anticipated expiration: 2030-02-15

Abstract

The utility model relates to a boring machine workstation for cambered surface casing part belongs to boring machine processingequipment technical field, and its technical scheme's main points are including the workstation body and set up the fixed subassembly at the workstation body upper surface, fixed subassembly is including the mounting bracket that is fixed in workstation body upper surface one end, be fixed with the cambered surface locating piece that is used for the butt of arc profile on the mounting bracket, a side surface of cambered surface locating piece is provided with the location cambered surface of laminating with the arc profile; the worktable body upper surface both sides of the location cambered surface one side of cambered surface locating piece are provided with the plane locating piece that is used for the location plane butt, the plane locating piece is along worktable body length direction and worktable body sliding connection, plane locating piece upper portion is provided with carries out the clamp plate of butt in vertical direction to the installing port lateral wall. The utility model discloses can conveniently firmly fix cambered surface casing on the boring machine workstation.

Description

Boring machine workbench for cambered surface shell part

Technical Field

The utility model belongs to the technical field of the boring machine processingequipment, especially, relate to a boring machine workstation for cambered surface casing part.

Background

The boring machine is a machine tool which mainly uses a boring cutter to bore the existing prefabricated holes of workpieces. Typically, the boring tool rotation is the primary motion and the boring tool or workpiece movement is the feed motion. It is mainly used for machining high-precision holes or finishing multiple holes by one-time positioning, and can also be used for machining other machining surfaces related to hole finishing. The machining precision and the surface quality of drilling, milling and cutting can be higher than those of a drilling machine by using different tools and accessories.

As shown in fig. 1, the arc surface housing includes a workpiece housing 1, a cross section of the workpiece housing 1 is arc-shaped, a circumferential surface of the workpiece housing 1 includes an arc-shaped surface 11 and a positioning plane 12 facing the arc-shaped surface 11, the positioning plane 12 is provided with an installation opening 13, and two end surfaces of the workpiece housing 1 are respectively provided with a circular hole 14 penetrating through an end surface of the housing. The circular hole 14 on the workpiece shell 1 is an assembly hole, and in the processing process of the shell, a boring machine is needed to bore the inner wall of the circular hole 14.

When an existing workpiece is machined by a boring machine, generally, pressing plates are arranged on two sides of the upper portion of the workpiece, the workpiece is pressed in a vertical direction through the pressing plates, and then the workpiece is fixed on a worktable of the boring machine. Because one side of the cambered surface shell is provided with the cambered surface, the positioning state of the cambered surface shell is unstable by using the existing fixing mode of adopting a pressing plate to fix the cambered surface shell at two sides of the upper part of a workpiece.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a boring machine workstation for cambered surface casing part, can conveniently firmly fix cambered surface casing on the boring machine workstation.

The above object of the present invention is achieved by the following technical solutions: a boring machine workbench for cambered surface shell parts comprises a workbench body and a fixing assembly arranged on the upper surface of the workbench body, wherein the fixing assembly comprises a mounting frame fixed at one end of the upper surface of the workbench body, a cambered surface positioning block used for abutting against an arc-shaped surface is fixed on the mounting frame, and a positioning cambered surface attached to the arc-shaped surface is arranged on one side surface of the cambered surface positioning block; the worktable body upper surface both sides of the location cambered surface one side of cambered surface locating piece are provided with the plane locating piece that is used for the location plane butt, the plane locating piece is along worktable body length direction and worktable body sliding connection, plane locating piece upper portion is provided with carries out the clamp plate of butt in vertical direction to the installing port lateral wall.

Through adopting above-mentioned technical scheme, the location cambered surface through the cambered surface locating piece is laminated with cambered surface casing's arc profile and the butt, through sliding the plane locating piece along workstation body length direction, and then carries out the butt through the plane locating piece to cambered surface casing's location plane, carries out the butt in vertical direction through the clamp plate to the installing port lateral wall to can be convenient firm carry out the processing location to cambered surface casing.

The utility model discloses further set up to: the upper surface of the workbench body is provided with a plurality of T-shaped chutes which penetrate through the workbench body along the length direction of the workbench body; a positioning screw rod vertically penetrating through the plane positioning block and the pressing plate is arranged at the plane positioning block, a positioning sliding block is fixed at the lower end of the positioning screw rod, and the positioning sliding block is positioned in the T-shaped sliding groove and is in sliding connection with the T-shaped sliding groove along the length direction of the T-shaped sliding groove; and the upper part of the pressure plate is provided with a positioning nut which is abutted against the pressure plate and is in threaded engagement with the positioning screw.

Through adopting above-mentioned technical scheme, run through plane locating piece and clamp plate simultaneously through positioning screw to be fixed with the location slider in positioning screw's lower part, slide in the T type spout of the workstation body through the location slider, and then can convenient and fast adjust the position of plane locating piece and clamp plate, and through positioning nut's setting, through screwing up positioning nut, can convenient and fast use the clamp plate to compress tightly cambered surface casing's installing port lateral wall.

The utility model discloses further set up to: the mounting frame comprises a connecting block and supporting columns located at two ends of the lower surface of the connecting block, the supporting columns are vertically arranged and fixedly connected with the connecting block, the lower end surfaces of the supporting columns are abutted to the upper surface of the workbench body, fixing screws vertically penetrating through the connecting block are arranged at two ends of the mounting frame, mounting sliding blocks are fixed at the lower ends of the fixing screws, and the mounting sliding blocks are located in the T-shaped sliding grooves and are in sliding connection with the T-shaped sliding grooves along the length direction of the T-shaped sliding grooves; and fixing nuts which are in threaded engagement with the fixing screw rods and are abutted against the upper surface of the connecting block are respectively arranged on two sides of the upper surface of the connecting block.

By adopting the technical scheme, the mounting frame is conveniently and quickly fixed on the workbench body by abutting the support column with the upper surface of the workbench body, further by matching the fixing screw rod with the fixing nut and abutting the upper surface of the connecting block by the fixing nut; through not hard up fixation nut, and then can be through the cooperation of installation slider with T type slider, slide adjusting is carried out to the position of mounting bracket.

The utility model discloses further set up to: the cambered surface positioning block is connected with the connecting block through a bolt.

Through adopting above-mentioned technical scheme, cambered surface locating piece adopts bolted connection with the connecting block, and then can convenient and fast with installation of cambered surface locating piece and connecting block and dismantlement to can be through the cambered surface locating piece of changing different location cambered surfaces, thereby can adapt to the cambered surface casing of different specification location cambered surfaces.

The utility model discloses further set up to: the upper end face of the support column is fixed with a threaded connecting column, and threaded connecting holes meshed with the threaded connecting column in a threaded mode are formed in the two ends of the lower surface of the connecting block respectively.

Through adopting above-mentioned technical scheme, the support column passes through the cooperation of threaded connection post and threaded connection hole and then the installation is fixed in the lower part of connecting block to can dismantle support column and connecting block, and then can change the support column of different length according to the cambered surface casing of different specifications.

The utility model discloses further set up to: the upper surface and the lower surface of the plane positioning block are respectively provided with a positioning groove which penetrates through the plane positioning block along the length direction of the plane positioning block, a plurality of gaskets which are axially penetrated through by the fixing screw are arranged between the pressing plate and the plane positioning block, the upper surface of the uppermost gasket is abutted against the lower surface of the pressing plate, and the lower surface of the lowermost gasket is abutted against the groove bottom of the positioning groove.

By adopting the technical scheme, the plurality of gaskets axially penetrated by the fixing screw rods are arranged between the pressing plate and the plane positioning block, so that when the cambered shell is pressed downwards and applied with force through the pressing plate, the pressing plate is supported through the gaskets, and the plane positioning block can be pressed and fixed at the same time, so that the positioning state of the cambered shell is more stable; positioning grooves are processed on the upper and lower surfaces of the plane positioning block, and then

The utility model discloses further set up to: a base is arranged below the workbench body, and a moving seat is arranged between the base and the workbench body; the X-axis driving component is used for driving the workbench body to move on the moving seat along the length direction of the workbench body, and the Y-axis driving component is used for driving the moving seat to move on the base along the width direction of the workbench body.

Through adopting above-mentioned technical scheme, move the seat through the drive of X axle drive assembly along the drive table body and move along table body length direction on moving the seat, and then can be quick align the round hole with the cutter of cambered surface casing and boring machine, can drive through Y axle drive assembly and move the cutter that the seat is close to the boring machine, and then conveniently align the operation to the cutter of boring machine.

To sum up, the utility model discloses a beneficial technological effect does:

1. the positioning cambered surface of the cambered surface positioning block is attached to the cambered surface of the cambered surface shell in a butting mode, the plane positioning block is slid along the length direction of the workbench body, then the positioning plane of the cambered surface shell is abutted through the plane positioning block, and the side wall of the mounting opening is abutted in the vertical direction through the pressing plate, so that the cambered surface shell can be conveniently and firmly processed and positioned.

2. The mounting frame comprises a connecting block and a supporting column, and is conveniently and quickly fixed on the workbench body by abutting the supporting column with the upper surface of the workbench body, further by matching of a fixing screw rod and a fixing nut and abutting the upper surface of the connecting block by the fixing nut; through not hard up fixation nut, and then can be through the cooperation of installation slider with T type slider, slide adjusting is carried out to the position of mounting bracket.

3. Cambered surface locating piece adopts bolted connection with the connecting block, and then can convenient and fast with cambered surface locating piece and connecting block installation and dismantlement, the support column passes through the cooperation of spliced pole and threaded connection hole and then the installation is fixed in the lower part of connecting block, thereby can dismantle support column and connecting block, and then can be through the support column of changing different length and the connecting block of different length and then adapt to the cambered surface casing's of different specifications location demand.

Drawings

FIG. 1 is a schematic structural diagram of a prior art cambered surface housing part;

FIG. 2 is a schematic view of the application condition of a boring machine workbench for cambered surface shell parts;

FIG. 3 is a schematic structural view of a boring machine table for cambered surface shell parts;

FIG. 4 is a schematic diagram of a structure embodying an X-axis drive assembly;

FIG. 5 is a schematic structural view showing a connection relationship between the arc positioning block and the mounting frame;

FIG. 6 is a schematic structural view showing the connection relationship between the supporting columns and the connecting blocks;

FIG. 7 is a schematic structural view showing the connection relationship between the planar positioning block and the pressing plate.

In the figure, 1, a workpiece housing; 11. an arcuate surface; 12. positioning a plane; 13. an installation port; 14. a circular hole; 2. a worktable body; 21. a T-shaped chute; 3. a movable seat; 31. an X-axis connecting groove; 32. an X-axis drive mounting groove; 4. a base; 5. an X-axis drive assembly; 51. an X-axis drive block; 52. an X-axis driving screw rod; 53. an X-axis drive motor; 6. a Y-axis drive assembly; 7. a fixing assembly; 71. a mounting frame; 711. connecting blocks; 7111. connecting a threaded hole; 712. a support pillar; 7121. a threaded connection post; 72. fixing the screw rod; 721. installing a sliding block; 722. fixing a nut; 73. a cambered surface positioning block; 731. positioning the arc surface; 74. a plane positioning block; 741. positioning a groove; 75. pressing a plate; 76. positioning a screw rod; 761. positioning the sliding block; 762. positioning a nut; 77. and (7) a gasket.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model provides a boring machine workstation for cambered surface casing part, hereinafter be referred to boring machine workstation for short, refers to fig. 2 and 3, is provided with base 4 including the below of workstation body 2, is provided with between base 4 and the workstation body 2 and removes seat 3, and the upper surface of workstation body 2 is provided with and is used for cambered surface casing part to carry out fixed subassembly 7 fixed. The width direction of the workbench body 2 is parallel to the axis direction of a cutter of a boring machine, the length direction of the movable base 3 is parallel to the length direction of the workbench body 2, and the boring machine workbench further comprises an X-axis driving assembly 5 for driving the workbench body 2 to move on the movable base 3 along the length direction of the workbench body 2 and a Y-axis driving assembly 6 for driving the movable base 3 to move on the base 4 along the width direction of the workbench body 2. When adding man-hour to cambered surface casing part, fix cambered surface casing on workstation body 2 through fixed subassembly 7, move on removing seat 3 along its length direction through X axle drive assembly 5 drive workstation body 2, and then conveniently align cambered surface casing's round hole 14 with the cutter of boring machine, move on workstation body 2's width direction through Y axle drive assembly 6 drive removal seat 3, and then make cambered surface casing be close to or keep away from the cutter of boring machine, and then make the processing location to cambered surface casing more convenient.

Referring to fig. 3 and 4, X-axis connecting grooves 31 are formed on both sides of the upper surface of the movable base 3 along the length direction of the movable base 3, and X-axis connecting blocks 711 are fixed to both sides of the lower surface of the table body 2. The X-axis connecting block 711 is located in the X-axis connecting groove 31 and slidably connected with the X-axis connecting groove 31 along the length direction of the X-axis connecting groove 31. An X-axis driving installation groove 32 is formed between the two X-axis connection grooves 31 and is arranged along the length direction of the movable seat 3. The X-axis drive assembly 5 includes an X-axis drive block 51, an X-axis drive screw 52, and an X-axis drive motor 53. The X-axis driving block 51 is positioned in the X-axis driving mounting groove 32 and slidably coupled to the X-axis driving mounting groove 32 along the length direction of the X-axis driving mounting groove 32, and the X-axis driving block 51 is fixedly coupled to the table body 2. The X-axis driving screw rod 52 is positioned in the X-axis driving mounting groove 32, the axial direction of the X-axis driving screw rod 52 is arranged along the length direction of the X-axis driving mounting groove 32, and the X-axis driving screw rod is rotatably connected with the movable seat 3 around the axis thereof. The X-axis drive screw 52 penetrates the X-axis drive block 51 in its axial direction and is screwed with the X-axis drive block 51. The X-axis driving motor 53 is located at one end of the X-axis driving screw 52, a body of the X-axis driving motor 53 is fixedly connected with the moving seat 3, and an output shaft of the X-axis driving motor 53 is coaxially arranged with and fixedly connected with the X-axis driving screw 52. The X-axis driving motor 53 drives the X-axis driving screw rod 52 to rotate, and the X-axis driving screw rod 52 is in threaded connection with the X-axis driving block 51 to drive the worktable body 2 to move along the length direction of the base 4. The driving manner of the movable base 3 by the Y-axis driving assembly 6 is the same as the driving manner of the table body 2 by the X-axis driving assembly 5, and the description thereof is omitted.

Referring to fig. 3 and 5, the table body 2 is provided on the upper surface thereof with a plurality of T-shaped chutes 21 penetrating the table body 2 in the longitudinal direction of the table body 2. One end of the workbench body 2 is provided with a mounting bracket 71, and the mounting bracket 71 comprises a mounting bracket 71 comprising a connecting block 711 and supporting columns 712 arranged at two ends of the lower surface of the connecting block 711. The supporting column 712 is vertically arranged and fixedly connected with the connecting block 711, and the lower end surface of the supporting column 712 is abutted against the upper surface of the workbench body 2. The two ends of the mounting bracket 71 are provided with fixing screws 72 vertically penetrating through the connecting blocks 711, the lower ends of the fixing screws 72 are fixed with mounting sliding blocks 721, and the mounting sliding blocks 721 are located in the T-shaped sliding grooves 21 and are slidably connected with the T-shaped sliding grooves 21 along the length direction of the T-shaped sliding grooves 21. An arc positioning block 73 is fixed on one side of the mounting frame 71 close to the middle of the worktable body 2, and a positioning arc 731 attached to the arc surface 11 is arranged on the surface of one side of the arc positioning block 73 far away from the mounting frame 71. When the cambered shell is machined, the cambered surface 11 of the cambered shell is attached to the positioning cambered surface 731 of the cambered positioning block 73, and then the cambered shell is placed and positioned, so that the round hole 14 needing to be bored is aligned to a cutter of a boring machine. The mounting bracket 71 is fixed at the position where the mounting bracket 71 is arranged by the cooperation of the fixing screw 72, the mounting slider 721 and the fixing nut 722, and the position of the mounting bracket 71 can be adjusted along the length direction of the workbench body 2 by loosening the fixing nut 722, so that the mounting bracket 71 can adapt to cambered surface housings with different widths.

Referring to fig. 5 and 6, the arc positioning block 73 is connected to the connecting block 711 by bolts. A threaded connecting column 7121 is fixed on the upper end face of the supporting column 712, and threaded connecting holes 7111 which are in threaded engagement with the threaded connecting column 7121 are respectively formed in two ends of the lower surface of the connecting block 711. The arc positioning block 73 is connected with the connecting block 711 by bolts, so that the arc positioning block 73 can be conveniently and quickly detached from the connecting block 711, and the arc positioning blocks 73 with different positioning arc surfaces 731 can be replaced. The supporting column 712 is further fixed on the lower surface of the connecting block 711 through the matching of the threaded connecting column 7121 and the threaded connecting hole 7111, so that the supporting column 712 with different lengths can be replaced according to the specification of the machined cambered surface shell, and the height position of the cambered surface positioning block 73 is adjusted.

Referring to fig. 3 and 7, two sides of the upper surface of the working table body 2 on one side of the positioning arc surface 731 are provided with plane positioning blocks 74 for abutting against the positioning plane 12, the plane positioning blocks 74 are slidably connected with the working table body 2 along the length direction of the working table body 2, and the upper part of the plane positioning blocks 74 is provided with a pressing plate 75 for abutting against the side wall of the mounting opening 13 in the vertical direction. A positioning screw 76 vertically penetrating through the plane positioning block 74 and the pressing plate 75 is arranged at the plane positioning block 74, a positioning slider 761 is fixed at the lower end of the positioning screw 76, and the positioning slider 761 is positioned in the T-shaped sliding groove 21 and is in sliding connection with the T-shaped sliding groove 21 along the length direction of the T-shaped sliding groove 21; the upper portion of the pressure plate 75 is provided with a positioning nut 762 abutting the pressure plate 75 and threadedly engaged with the positioning screw 76. Fixing nuts 722 which are in threaded engagement with the fixing screw 72 and abut against the upper surface of the connecting block 711 are respectively arranged on two sides of the upper surface of the connecting block 711. The upper and lower side surfaces of the plane positioning block 74 are respectively provided with positioning grooves 741 penetrating the plane positioning block 74 along the length direction of the plane positioning block 74, a plurality of gaskets 77 axially penetrated by the fixing screws 72 are arranged between the pressing plate 75 and the plane positioning block 74, the upper surface of the uppermost gasket 77 abuts against the lower surface of the pressing plate 75, and the lower surface of the lowermost gasket 77 abuts against the groove bottom of the positioning grooves 741. After the cambered surface shell is positioned by using the cambered surface positioning block 73, the plane positioning block 74 is slid along the length direction of the T-shaped sliding groove 21, so that the plane positioning block 74 is abutted against the positioning plane 12 of the cambered surface shell, then the pressing plate 75 is abutted against the side wall of the installation opening 13 of the cambered surface shell, and the pressing plate 75 is abutted tightly by the positioning nut 762, so that the cambered surface positioning block 73 is positioned on the workbench body 2.

The implementation principle of the embodiment is as follows:

according to the specification of the arc housing, the supporting column 712 with the corresponding length and the arc positioning block 73 with the corresponding specification are selected. The arc-shaped surface 11 of the arc-shaped casing is attached to the positioning arc 731 of the arc-shaped positioning block 73, and then the plane positioning block 74 is slid, so that the plane positioning block 74 is abutted to the positioning plane 12 of the arc-shaped casing. The side wall of the arc surface housing mounting opening 13 is abutted by the pressing plate 75, and the pressing plate 75 is abutted by the positioning nut 762, so that the arc surface positioning block 73 is positioned on the workbench body 2. The cutter of the cambered surface shell close to the boring machine is driven by the Y-axis driving component 6, and the cambered surface shell is driven by the X-axis driving component 5 to move in the length direction of the workbench, so that the round hole 14 machined by the cambered surface shell is aligned with the cutter of the boring machine, and the round hole 14 of the cambered surface shell is bored by the boring machine.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a boring machine workstation for cambered surface casing part, includes the workstation body (2) and sets up fixed subassembly (7) at workstation body (2) upper surface, its characterized in that: the fixing component (7) comprises a mounting rack (71) fixed at one end of the upper surface of the workbench body (2), an arc-shaped positioning block (73) used for abutting against the arc-shaped surface (11) is fixed on the mounting rack (71), and a positioning arc surface (731) attached to the arc-shaped surface (11) is arranged on one side surface of the arc-shaped positioning block (73); the upper surface of the workbench body (2) on one side of the positioning arc surface (731) of the arc surface positioning block (73) is provided with plane positioning blocks (74) used for abutting against the positioning plane (12), the plane positioning blocks (74) are connected with the workbench body (2) in a sliding mode along the length direction of the workbench body (2), and the upper portion of the plane positioning blocks (74) is provided with pressing plates (75) used for abutting against the side wall of the mounting opening (13) in the vertical direction.

2. The boring machine table for the cambered surface shell part as recited in claim 1, wherein: the upper surface of the workbench body (2) is provided with a plurality of T-shaped sliding chutes (21) which penetrate through the workbench body (2) along the length direction of the workbench body (2); a positioning screw rod (76) vertically penetrating through the plane positioning block (74) and the pressing plate (75) is arranged at the plane positioning block (74), a positioning slide block (761) is fixed at the lower end of the positioning screw rod (76), and the positioning slide block (761) is positioned in the T-shaped sliding groove (21) and is in sliding connection with the T-shaped sliding groove (21) along the length direction of the T-shaped sliding groove (21); and a positioning nut (762) which is abutted against the pressure plate (75) and is in threaded engagement with the positioning screw rod (76) is arranged at the upper part of the pressure plate (75).

3. The boring machine table for the cambered surface shell part as recited in claim 2, wherein: the mounting frame (71) comprises a connecting block (711) and supporting columns (712) located at two ends of the lower surface of the connecting block (711), the supporting columns (712) are vertically arranged and fixedly connected with the connecting block (711), the lower end surfaces of the supporting columns (712) are abutted to the upper surface of the workbench body (2), fixing screws (72) vertically penetrating through the connecting block (711) are arranged at two ends of the mounting frame (71), mounting sliding blocks (721) are fixed at the lower ends of the fixing screws (72), and the mounting sliding blocks (721) are located in the T-shaped sliding grooves (21) and are in sliding connection with the T-shaped sliding grooves (21) along the length direction of the T-shaped sliding grooves (21); and fixing nuts (722) which are in threaded engagement with the fixing screw rods (72) and are abutted to the upper surface of the connecting block (711) are respectively arranged on two sides of the upper surface of the connecting block (711).

4. The boring machine table for the cambered surface shell part as recited in claim 3, wherein: the cambered surface positioning block (73) is connected with the connecting block (711) through bolts.

5. The boring machine table for the cambered surface shell part as recited in claim 3, wherein: the upper end face of support column (712) is fixed with screw thread spliced pole (7111), threaded connection hole (7121) with screw thread spliced pole (7111) threaded engagement is seted up respectively at the both ends of connecting block (711) lower surface.

6. The boring machine table for the cambered surface shell part as recited in claim 3, wherein: the upper side surface and the lower side surface of the plane positioning block (74) are respectively provided with a positioning groove (741) which penetrates through the plane positioning block (74) along the length direction of the plane positioning block (74), a plurality of gaskets (77) which are axially penetrated by the fixing screw rods (72) are arranged between the pressing plate (75) and the plane positioning block (74), the upper surface of the uppermost gasket (77) is abutted to the lower surface of the pressing plate (75), and the lower surface of the lowermost gasket (77) is abutted to the groove bottom of the positioning groove (741).

7. The boring machine table for the cambered surface shell part as recited in claim 1, wherein: a base (4) is arranged below the workbench body (2), and a movable seat (3) is arranged between the base (4) and the workbench body (2); the X-axis driving component (5) for driving the workbench body (2) to move on the moving seat (3) along the length direction of the workbench body (2) and the Y-axis driving component (6) for driving the moving seat (3) to move on the base (4) along the width direction of the workbench body (2) are further included.