CN115043201A - Pipe fitting raw material batch transfer equipment for spray gun production and processing - Google Patents

Abstract

The application discloses a pipe fitting raw and other materials transportation equipment in batches for spray gun production and processing includes: the pipe fitting batch clamping assembly comprises a power transmission assembly and a clamping assembly, the power transmission assembly is engaged with the clamping assembly to move, and the power transmission assembly is electrically connected with a storage battery; the clamping component moves along a fixed track in the guide component. The application has the advantages that: the pipe fitting batch clamping assembly can realize batch clamping and transferring of pipe fittings, time and labor are saved, and transferring efficiency is high; through centre gripping length adjustment assembly, can realize the centre gripping transportation operation to different length pipe fittings, application scope is wider.

Description

Pipe fitting raw material batch transfer equipment for spray gun production and processing

Technical Field

The application relates to the technical field of spray gun production and processing, in particular to a pipe fitting raw material batch transfer device for spray gun production and processing.

Background

A spray gun is a device that uses a quick release of liquid or compressed air as a motive force. The spray gun is divided into a normal pressure type spray gun and a pressurized spray gun. The spray gun also comprises a pressure type spray gun, a Kale type spray gun and an automatic recovery type spray gun. The spray gun can be directly used for loading paint in the industry, namely the simple spray gun can be installed in automatic equipment, such as an automatic glue sprayer, an automatic glue spreader, an automatic paint sprayer, a coating machine and other spraying equipment.

In the production process of the spray gun, a large amount of pipes are needed to be used as raw materials, and the pipes need to be transported from various places of a factory building according to different processing procedures.

At present, when the pipes are transported, the pipes are basically transported by using a transport trolley, the pipes are required to be placed on the trolley one by one, and all the pipes are required to be fixed and tightened, so that time and labor are wasted; in addition, the rotation of shorter tubular product can only be carried out to current transportation dolly, and to longer tubular product, it is then comparatively difficult to utilize the transportation dolly, drops easily.

Disclosure of Invention

In order to solve the various problems, the application provides the pipe fitting raw material batch transferring equipment for the production and processing of the spray gun, which can realize batch clamping and transferring of the pipe fittings through the pipe fitting batch clamping assembly, saves time and labor and has higher transferring efficiency; through centre gripping length adjustment assembly, can realize the centre gripping transportation operation to different length pipe fittings, application scope is wider.

In order to solve the technical problem, the technical scheme provided by the application is as follows: a pipe fitting raw and other materials batch transfer equipment for spray gun production and processing includes:

the movable frame comprises a frame body, and self-locking universal wheels are fixed at four corners below the frame body;

the bearing plate is fixedly arranged at the upper end of the frame body, and a storage battery is fixed on the bearing plate;

the telescopic structures are provided with a plurality of telescopic structures, one ends of the telescopic structures are rotatably connected to the lower surface of the bearing plate through pin shafts, and the telescopic structures are electrically connected with the storage battery jar;

the clamping length adjusting assembly is rotatably connected to the other end of the telescopic structure through a pin shaft and comprises a first mounting plate and a second mounting plate, a push-pull structure is fixedly mounted on the first mounting plate, the first mounting plate and the second mounting plate are spliced with each other, the other end of the push-pull structure is fixedly connected to the upper surface of the second mounting plate, and the push-pull structure is electrically connected with the storage battery;

the pipe fitting batch clamping assemblies are symmetrically arranged, one pipe fitting batch clamping assembly is fixedly arranged on the lower surface of the first mounting plate, the other pipe fitting batch clamping assembly is fixedly arranged on the lower surface of the second mounting plate, each pipe fitting batch clamping assembly comprises a power transmission assembly and a clamping assembly, the power transmission assemblies are in meshing motion with the clamping assemblies, and the power transmission assemblies are electrically connected with the storage battery;

and the clamping assembly moves along a fixed track in the guide assembly.

According to the pipe fitting raw material batch transferring equipment for spray gun production and processing, the problems can be solved, the distance between the first mounting plate and the second mounting plate can be controlled through the push-pull structure according to the length of a pipe fitting to be transferred, so that the two pipe fitting batch clamping assemblies are controlled to be close to or far away from each other, and the pipe fitting batch transferring equipment is suitable for clamping pipe fittings with different lengths; during clamping, the pipe fitting batch clamping assembly can be lowered through the telescopic structure, then the first bevel gear can be driven to rotate through the stepping motor, and the first straight gear is driven to rotate through the rotating shaft, so that the first semi-arc gear is driven to rotate; the rotation of the first bevel gear can also transmit power to the second bevel gear through the direction-changing bevel gear, and the rotation direction of the second bevel gear is opposite to that of the first bevel gear, so that the cylinder and the second straight gear can be driven to rotate, and the second semi-arc gear can be driven to rotate; first half arc gear and second half arc gear come the cooperation through the arc strip and slide, make this two can form a circular, carry out parcel formula centre gripping to the pipe fitting, the going on of being convenient for transport in batches.

According to one embodiment, the clamping length adjusting assembly further comprises a slot arranged in one end face of the first mounting plate and an inserting plate integrally formed with one end face of the second mounting plate, the inserting plate is pulled in the slot, the push-pull structure is a hydraulic cylinder or an air cylinder or an electric push rod or a ball screw structure, and the other end of the telescopic structure is rotatably connected to the upper surfaces of the first mounting plate and the second mounting plate through a pin shaft.

According to one embodiment, the power transmission assembly comprises a protective shell fixedly mounted on the lower surfaces of the first mounting plate and the second mounting plate, a stepping motor is fixedly arranged in the protective shell, the output end of the stepping motor is fixedly connected with a rotating shaft through a coupler, a first bevel gear and a first straight gear are fixedly arranged on the rotating shaft, a rotatable turning bevel gear is arranged on the upper surface inside the protective shell, a rotatable cylinder is arranged on the rotating shaft and arranged between the first bevel gear and the first straight gear, a second bevel gear and a second straight gear are fixedly arranged on the cylinder, the turning bevel gear is meshed with the first bevel gear and the second bevel gear, and the first straight gear and the second straight gear are meshed with the clamping assembly.

According to an embodiment, the centre gripping subassembly includes the first half arc gear with first straight-tooth gear engaged with and the second half arc gear with second straight-tooth gear engaged with, first half arc gear and second half arc gear all move in the direction subassembly, first arc wall has been seted up on the first half arc gear, the second arc wall has been seted up on the second half arc gear, integrated into one piece has the first arc strip that slides in the second arc wall on the first half arc gear, integrated into one piece has the second arc strip that slides in first arc wall on the second half arc gear.

According to one embodiment, the direction subassembly includes fixed mounting in the pairwise direction splint of centre gripping length adjustment subassembly lower surface both sides department, and every pair direction splint includes direction front splint and direction back splint, and integrated into one piece has the screw thread section of thick bamboo of equipartition and the arc conducting bar that sets up in pairs on the direction back splint, passes the direction front splint and is equipped with fixing bolt in screwing in the screw thread section of thick bamboo, and first half arc gear and second half arc gear all move between arc conducting bar and screw thread section of thick bamboo.

According to one embodiment, the frame body comprises a square frame body, supporting legs are fixed to four corners of the lower surface of the square frame body, self-locking universal wheels are fixed to the lower ends of the supporting legs, and the bearing plate is fixed to the lower surface of the square frame body.

According to one embodiment, a stabilizing post is fixed between the front two support legs and between the rear two support legs.

According to one embodiment, the threaded barrel is sleeved with a rotatable guide barrel.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic front view of the present application.

Fig. 2 is a perspective view of the mobile frame of the present application.

Fig. 3 is a front view internal schematic of the present application.

FIG. 4 is a top schematic view of the clamping length adjustment assembly of the present application.

Figure 5 is a left side schematic view of a tubular batch gripping assembly of the present application.

Figure 6 is a left internal schematic view of a tubular batch gripping assembly of the present application.

As shown in the figure:

1. a movable frame;

101. a frame body; 1011. a square frame body; 1012. supporting legs; 1013. a stabilizing column;

102. a self-locking universal wheel;

2. a bearing plate; 3. a telescopic structure;

4. a clamping length adjustment assembly; 401. a first mounting plate; 402. a second mounting plate; 403. a push-pull structure; 404. inserting plates;

5. the pipe fitting batch clamping assembly;

501. a power transmission assembly; 5011. a protective shell; 5012. a stepping motor; 5013. a rotating shaft; 5014. a first bevel gear; 5015. a first straight gear; 5016. a direction-changing bevel gear; 5017. a cylinder; 5018. a second bevel gear; 5019. a second spur gear;

502. a clamping assembly; 5021. a first semi-arc gear; 5022. a second semi-arc gear; 5023. a first arc-shaped slot; 5024. a second arc-shaped slot; 5025. a second arcuate strip;

6. a guide assembly; 601. guiding the front clamping plate; 602. guiding the rear clamping plate; 603. a threaded barrel; 604. an arc-shaped conducting bar; 605. fixing the bolt; 606. a guide cylinder;

7. an accumulator jar.

Detailed Description

Reference will now be made in detail to the embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

With reference to fig. 1 and 2, the batch transfer device for pipe raw material for a spray gun production process according to the embodiment of the present application includes:

the movable rack 1 comprises a rack body 101, and self-locking universal wheels 102 are fixed at four corners below the rack body 101;

the bearing plate 2 is fixedly arranged at the upper end of the frame body 1, and the accumulator jar 7 is fixed on the bearing plate 2;

the number of the telescopic structures 3 is multiple, one end of each telescopic structure 3 is rotatably connected to the lower surface of the bearing plate 2 through a pin shaft, and the telescopic structures 3 are electrically connected with the storage battery 7;

the clamping length adjusting assembly 4 is rotatably connected to the other end of the telescopic structure 3 through a pin shaft, the clamping length adjusting assembly 4 comprises a first mounting plate 401 and a second mounting plate 402, a push-pull structure 403 is fixedly mounted on the first mounting plate 401, the first mounting plate 401 and the second mounting plate 402 are connected in an inserted mode, the other end of the push-pull structure 403 is fixedly connected to the upper surface of the second mounting plate 402, and the push-pull structure 403 is electrically connected with the storage battery 7;

the pipe fitting batch clamping assemblies 5 are symmetrically arranged, one pipe fitting batch clamping assembly 5 is fixedly arranged on the lower surface of the first mounting plate 401, the other pipe fitting batch clamping assembly 5 is fixedly arranged on the lower surface of the second mounting plate 402, each pipe fitting batch clamping assembly 5 comprises a power transmission assembly 501 and a clamping assembly 502, the power transmission assemblies 501 and the clamping assemblies 502 move in a meshed mode, and the power transmission assemblies 501 are electrically connected with the storage battery 7;

the guide assembly 6 and the clamping assembly 502 move along a fixed track in the guide assembly 6.

Specifically, the bearing plate 2 is fixedly arranged on the frame body 101 of the movable frame 1 through bolts, and the storage battery 7 is fixed on the bearing plate 2 through bolts and provides power for various electric components; the telescopic structure 3 is hinged between the bearing plate 2 and the clamping length adjusting component 4;

when the length of the clamping length adjusting assembly 4 is adjusted, a certain amount of deflection can occur to the angle of the telescopic structure 3, so that the clamping length adjusting assembly 4 cannot be adjusted adaptively;

the tubular batch gripper assemblies 5 are provided in two and are mounted below the gripper length adjustment assembly 4, the main gripper assemblies 502 of which perform a fixed arc-shaped path of movement within the guide assembly 6.

Further, with reference to fig. 1 and fig. 4, the clamping length adjusting assembly 4 further includes a slot disposed in an end surface of the first mounting plate 401 and an insert plate 404 integrally formed with an end surface of the second mounting plate 402, the insert plate 404 is drawn in the slot, the push-pull structure 403 is a hydraulic cylinder or an air cylinder or an electric push rod or a ball screw structure, and the other end of the telescopic structure 3 is rotatably connected to the upper surfaces of the first mounting plate 401 and the second mounting plate 402 through a pin.

Specifically, the push-pull structure 403 is started to stretch according to the length of the pipes to be clamped and transported in batches, so that the second mounting plate 402 is pushed to move in the slot through the inserting plate 404, the distance between the two pipe batch clamping assemblies 5 is adjusted, the requirements of clamping different pipes are met, and stress points for clamping the pipes are more stable and reliable.

Further, referring to fig. 3, the power transmission assembly 501 includes a protection housing 5011 fixedly mounted on the lower surface of the first mounting plate 401 and the lower surface of the second mounting plate 402, a stepping motor 5012 is fixed in the protection housing 5011, an output end of the stepping motor 5012 is fixedly connected with a rotating shaft 5013 through a coupling, a first bevel gear 5014 and a first straight gear 5015 are fixed on the rotating shaft 5013, a rotatable direction changing bevel gear 5016 is arranged on the upper surface inside the protection housing 5011, a rotatable cylinder 5017 is arranged on the rotating shaft 5013, the cylinder 5017 is arranged between the first bevel gear 5014 and the first straight gear 5015, a second bevel gear 5018 and a second straight gear 5019 are fixed on the cylinder 5017, the direction changing bevel gear 5016 is engaged with the first bevel gear 5014 and the second bevel gear 5018, and the first straight gear 5015 and the second straight gear 5019 are engaged with the clamping assembly 502.

Specifically, the stepping motor 5012 rotates to drive the rotating shaft 5013 to rotate, so that the first bevel gear 5014 and the first straight gear 5015 can be driven to rotate; the rotation of the first bevel gear 5014 is transmitted to the second bevel gear 5018 through the direction-changing bevel gear 5016, the rotation directions of the first bevel gear 5014 and the second bevel gear 5018 are opposite, the rotation of the second bevel gear 5018 drives the second spur gear 5019 to rotate through the cylinder 5017, and the two spur gears rotate in different directions to drive the clamping assembly 502 to complete the clamping action.

Further, referring to fig. 3 and fig. 6, the clamping assembly 502 includes a first half-arc gear 5021 engaged with the first straight gear 5015 and a second half-arc gear 5022 engaged with the second straight gear 5019, the first half-arc gear 5021 and the second half-arc gear 5022 both move in the guiding assembly 6, a first arc-shaped groove 5023 is formed on the first half-arc gear 5021, a second arc-shaped groove 5024 is formed on the second half-arc gear 5022, a first arc-shaped strip sliding in the second arc-shaped groove 5024 is integrally formed on the first half-arc gear 5021, and a second arc-shaped strip 5025 sliding in the first arc-shaped groove 5023 is integrally formed on the second half-arc gear 5022.

Specifically, the first straight gear 5015 rotates to drive the first semi-arc gear 5021 to rotate, the second straight gear 5019 rotates to drive the second semi-arc gear 5022 to rotate, and the first semi-arc gear 5021 and the second semi-arc gear 5022 rotate to form a closed circle, so that batch pipes are clamped;

the first half arc gear 5021 and the second half arc gear 5022 move between the arc-shaped sliding strip and the arc-shaped sliding groove to enable the relative movement of the two to be more stable and reliable, and deformation or distortion cannot occur.

Further, as shown in fig. 5 and fig. 6, the guiding assembly 6 includes paired guiding clamping plates fixedly mounted at two sides of the lower surface of the clamping length adjusting assembly 4, each pair of guiding clamping plates includes a guiding front clamping plate 601 and a guiding rear clamping plate 602, uniformly distributed threaded cylinders 603 and paired arc-shaped guide bars 604 are integrally formed on the guiding rear clamping plate 602, fixing bolts 605 are arranged in the threaded cylinders 603 penetrating through the guiding front clamping plate 601 and screwed, and the first half arc-shaped gear 5021 and the second half arc-shaped gear 5022 both move between the arc-shaped guide bars 604 and the threaded cylinders 603.

Specifically, the guide front clamp plate 601, the guide rear clamp plate 602, the arc-shaped guide strip 604 and the threaded cylinder 603 wrap the first half arc-shaped gear 5021 and the second half arc-shaped gear 5022, so that the first half arc-shaped gear 5021 and the second half arc-shaped gear 5022 can move in a fixed arc-shaped track, and therefore stable clamping action is achieved.

Further, referring to fig. 2, the frame body 101 comprises a square frame body 1011, support legs 1012 are fixed at four corners of the lower surface of the square frame body 1011, the self-locking universal wheel 102 is fixed at the lower ends of the support legs 1012, and the bearing plate 2 is fixed on the lower surface of the square frame body 1011;

a stabilizing column 1013 is secured between the first two support legs 1012 and between the second two support legs 1012.

Specifically, the support legs 1012 are fixed at four corners below the square frame 1011 by bolts, and the stabilizing columns 1013 are fixed between the support legs 1012 by bolts, so that the whole moving frame 1 is relatively stable.

Further, with reference to fig. 6, the rotatable guide cylinder 606 is sleeved on the threaded cylinder 603, and this arrangement can make the first half-arc gear 5021 and the second half-arc gear 5022 move more stably and smoothly.

The working principle of the application is as follows: firstly, according to the length of the pipe to be clamped, the distance between the first mounting plate 401 and the second mounting plate 402 is adjusted through a push-pull structure 403 (which can be a hydraulic cylinder, an air cylinder, an electric push rod or a ball screw structure), so that the distance between two pipe batch clamping assemblies is adjusted to adapt to the length of the pipe;

then, the stepping motor 5012 rotates to drive the first bevel gear 5014 to rotate, and the rotating shaft 5013 drives the first straight gear 5015 to rotate, so that the first semi-arc gear 5021 is driven to rotate; the rotation of the first bevel gear 5014 can also transmit power to the second bevel gear 5018 through the direction-changing bevel gear 5016, and the rotation direction of the second bevel gear 5018 is opposite to that of the first bevel gear 5014, so that the cylinder 5017 and the second straight gear 5019 can be driven to rotate, and the second half-arc gear 5022 can be driven to rotate; the first half arc gear 5021 and the second half arc gear 5022 are matched to slide through the arc strips, so that the first half arc gear 5021 and the second half arc gear 5022 can form a circle to realize clamping action.

The present application and its embodiments are described above, the description is not limited, and what is shown in the drawings is only one of the embodiments of the present application, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A pipe fitting raw and other materials batch transfer equipment for spray gun production and processing includes:

the device comprises a moving frame (1), wherein the moving frame (1) comprises a frame body (101), and self-locking universal wheels (102) are fixed at four corners below the frame body (101);

the bearing plate (2) is fixedly arranged at the upper end of the frame body (1), and a storage battery (7) is fixed on the bearing plate (2);

the number of the telescopic structures (3) is multiple, one end of each telescopic structure (3) is rotatably connected to the lower surface of the bearing plate (2) through a pin shaft, and the telescopic structures (3) are electrically connected with the storage battery (7);

the clamping length adjusting assembly (4) is rotatably connected to the other end of the telescopic structure (3) through a pin shaft, the clamping length adjusting assembly (4) comprises a first mounting plate (401) and a second mounting plate (402), a push-pull structure (403) is fixedly mounted on the first mounting plate (401), the first mounting plate (401) and the second mounting plate (402) are connected in an inserted mode, one end of the push-pull structure (403) is fixedly connected with the upper surface of the second mounting plate (402), and the push-pull structure (403) is electrically connected with the storage battery (7);

the pipe fitting batch clamping assemblies (5) are symmetrically arranged, one pipe fitting batch clamping assembly (5) is fixedly mounted on the lower surface of the first mounting plate (401), the other pipe fitting batch clamping assembly (5) is fixedly mounted on the lower surface of the second mounting plate (402), each pipe fitting batch clamping assembly (5) comprises a power transmission assembly (501) and a clamping assembly (502), the power transmission assemblies (501) and the clamping assemblies (502) move in a meshed mode, and the power transmission assemblies (501) are electrically connected with the storage battery (7);

the clamping assembly (502) moves along a fixed track in the guide assembly (6).

2. The pipe fitting raw material batch transfer equipment for spray gun production and processing according to claim 1, wherein the clamping length adjusting assembly (4) further comprises a slot formed in one end face of the first mounting plate (401) and an inserting plate (404) integrally formed on one end face of the second mounting plate (402), the inserting plate (404) is pulled in the slot, the push-pull structure (403) is any one of a hydraulic cylinder, an air cylinder, an electric push rod or a ball screw structure, and the other end of the telescopic structure (3) is rotatably connected to the upper surfaces of the first mounting plate (401) and the second mounting plate (402) through a pin shaft.

3. The pipe fitting raw material batch transfer device for spray gun production and processing according to claim 1, wherein the power transmission assembly (501) comprises a protection housing (5011) fixedly mounted on the lower surface of the first mounting plate (401) and the lower surface of the second mounting plate (402), a stepping motor (5012) is fixed in the protection housing (5011), the output end of the stepping motor (5012) is fixedly connected with a rotating shaft (5013) through a coupler, a first bevel gear (5014) and a first straight gear (5015) are fixed on the rotating shaft (5013), a rotatable change bevel gear (5016) is arranged on the inner upper surface of the protection housing (5011), a rotatable cylinder (5017) is arranged on the rotating shaft (5013), the cylinder (5017) is arranged between the first bevel gear (5014) and the first straight gear (5015), a second bevel gear (5018) and a second straight gear (5019) are fixed on the cylinder (5017), the direction changing bevel gear (5016) is meshed with the first bevel gear (5014) and the second bevel gear (5018), and the first straight gear (5015) and the second straight gear (5019) are meshed with the clamping assembly (502).

4. The apparatus for bulk transfer of tubular stock for spray gun production tooling according to claim 3, characterized in that the clamping assembly (502) comprises a first semi-arc gear (5021) engaged with the first straight gear (5015) and a second semi-arc gear (5022) engaged with the second straight gear (5019), the first half arc-shaped gear (5021) and the second half arc-shaped gear (5022) move in the guide component (6), a first arc-shaped groove (5023) is formed on the first half arc-shaped gear (5021), a second arc-shaped groove (5024) is formed on the second half arc-shaped gear (5022), a first arc-shaped strip sliding in the second arc-shaped groove (5024) is integrally formed on the first semi-arc-shaped gear (5021), and a second arc-shaped strip (5025) which slides in the first arc-shaped groove (5023) is integrally formed on the second half arc-shaped gear (5022).

5. The pipe fitting raw material batch transfer device for spray gun production and processing according to claim 4, wherein the guide assembly (6) comprises pairs of guide clamping plates fixedly mounted at two sides of the lower surface of the clamping length adjusting assembly (4), each pair of guide clamping plates comprises a guide front clamping plate (601) and a guide rear clamping plate (602), uniformly distributed threaded barrels (603) and arc-shaped guide strips (604) arranged in pairs are integrally formed on the guide rear clamping plate (602), fixing bolts (605) are arranged in the threaded barrels (603) in a penetrating mode through the guide front clamping plate (601) and screwed in the guide front clamping plate, and the first half arc-shaped gear (5021) and the second half arc-shaped gear (5022) move between the arc-shaped guide strips (604) and the threaded barrels (603).

6. The pipe fitting raw material batch transfer equipment for spray gun production and processing according to claim 1, wherein the frame body (101) comprises a square frame body (1011), supporting legs (1012) are fixed at four corners of the lower surface of the square frame body (1011), the self-locking universal wheel (102) is fixed at the lower ends of the supporting legs (1012), and the bearing plate (2) is fixed on the lower surface of the square frame body (1011).

7. The apparatus for bulk tubular stock transfer for lance production tooling of claim 6 wherein a stabilizing column (1013) is fixed between the first two support legs (1012) and between the second two support legs (1012).

8. The apparatus for bulk transfer of tubular starting material for lance production processing according to claim 5 wherein the threaded barrel (603) is sleeved with a rotatable guide barrel (606).

Images