CN216464442U - Splicing apparatus is assisted to aluminium alloy cabinet - Google Patents

Abstract

The utility model discloses an auxiliary splicing device for an aluminum profile cabinet, which relates to the technical field of mechanical equipment and comprises a base, wherein a first supporting block and a second supporting block which are used for placing two groups of aluminum profiles to be spliced are arranged on the base respectively, the first supporting block and the second supporting block are arranged vertically in the transverse and longitudinal directions, a driving assembly is arranged on one side of each supporting block, the driving assembly can drive the first supporting block to reciprocate on the base along the direction which is horizontally and vertically perpendicular to the second supporting block, a fixing assembly is arranged at the intersection of the first supporting block and the second supporting block, the fixing assembly can press and fix the intersection end, located on the first supporting block and the second supporting block, of each aluminum profile, the frame of the traditional aluminum profile cabinet is completely finished by manual work of personnel, the labor amount of the work is large, and a certain amount of work labor of the personnel can be reduced.

Description

Splicing apparatus is assisted to aluminium alloy cabinet

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to an auxiliary splicing device for an aluminum profile cabinet.

Background

The industrial aluminum profile has the alias: industrial aluminum extruded material, industrial aluminum alloy section bar, industrial aluminum section bar is an alloy material with aluminum as the main component, aluminum bar is extruded through hot melting to obtain aluminum materials with different section shapes, but the proportion of added alloy is different, the mechanical property and the application field of the produced industrial aluminum section bar are also different, generally speaking, the industrial aluminum section bar refers to all aluminum section bars except for aluminum section bars for building doors and windows, curtain walls, indoor and outdoor decoration and building structures, and most industrial aluminum section bars are developed according to the existing requirements of users.

The aluminium alloy cabinet is just buildding a domestic product that forms with the aluminium alloy, the frame equipment of traditional aluminium alloy cabinet generally adopts the segmentation concatenation mode, this kind of mode is personnel through splicing several groups of industry aluminium alloy into the subassembly separately, then connect between the subassembly and set up into holistic frame, it is located specific position on another group of industry aluminium alloy sometimes to have one set or several groups of industry aluminium alloy, need personnel at first measure the position one by one through measuring tool such as tape measure at first and then will need the one set or several groups of industry aluminium alloy of concatenation to place one by one and go and press from both sides the crossing department tightly between it through anchor clamps and make things convenient for personnel to splice fixedly, holistic work is accomplished through the manual work completely, personnel's operation is comparatively time-consuming and energy in the holistic workflow, the amount of labour is great.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an auxiliary splicing device for an aluminum profile cabinet, which can reduce certain working labor amount of personnel.

The technical purpose of the utility model is realized by the following technical scheme: an auxiliary splicing device for an aluminum profile cabinet comprises a base, wherein a first supporting block and a second supporting block which are used for placing two groups of aluminum profiles to be spliced respectively are arranged on the base, the first supporting block and the second supporting block are arranged vertically in the transverse and longitudinal directions, a driving assembly is arranged on one side of the first supporting block and can drive the first supporting block to reciprocate on the base in the direction which is horizontally vertical to the second supporting block, a fixing assembly is arranged at the intersection of the first supporting block and the second supporting block and comprises a support arranged at the intersection of the first supporting block and the second supporting block and a first pushing piece arranged on the support, a pressing plate is arranged at one end of the first pushing piece and located right above the intersection of the first supporting block and the second supporting block, and the first pushing piece can drive the pressing plate to reciprocate in the vertical direction of the first supporting block, and pressing and fixing the crossed ends of the aluminum profiles on the first supporting block and the second supporting block.

Preferably, the driving assembly comprises a first motor arranged on one side of the supporting block and a first rack arranged on one side of the supporting block and positioned on one side of the first motor, and a gear meshed with the first rack is sleeved on the outer wall of an output shaft of the first motor.

Preferably, the guide assembly comprises a limiting block arranged on the first supporting block in a sliding mode and used for being inserted into one end of the first aluminum section of the first supporting block, and a shielding block arranged on the base and located at the intersection of the first supporting block and the second supporting block, a second motor is arranged on one side, away from the supporting block, of the base, a driving wheel is sleeved on the outer wall of an output shaft of the second motor, one end of the shielding block penetrates through the base, and a second rack meshed with the driving wheel is arranged at one end of the shielding block penetrating through the base.

Preferably, a sliding groove is formed in one end, far away from the shielding block, of the first supporting block, one end of the limiting block is arranged in the sliding groove in a sliding mode, and a transverse baffle is arranged at an opening of the sliding groove in a sliding mode.

Preferably, the aluminum profile pressing device further comprises a pressing assembly, the pressing assembly comprises a fixed seat arranged on the first supporting block, a second pushing piece is arranged on the fixed seat, the second pushing piece is located on one side of the first supporting block, a pressing plate is arranged on one side of the second pushing piece, and the second pushing piece is driven to drive the pressing plate to move back and forth along the vertical direction of the first supporting block, so that the aluminum profile on the first supporting block is contacted and fixed and pressed in a loosening mode.

Preferably, the aluminum profile positioning device further comprises a limiting assembly, the limiting assembly comprises a placing block arranged on the base and clamping pieces arranged on the placing block, a notch for inserting one end of the aluminum profile on the first supporting block is formed in the placing block, and the two groups of clamping pieces are arranged at two opposite ends of the placing block respectively.

Preferably, a graduated scale is embedded in the base along the length direction of the first supporting block, and the zero point of the graduated scale is attached to one side, close to the second supporting block, of the first supporting block.

Preferably, a control console for operating by personnel is arranged on one side of the base, which is far away from the supporting block.

The utility model has the beneficial effects that: compared with the prior art, the utility model utilizes the first support block and the second support block which are transversely and longitudinally arranged on the base, the fixing component arranged right above the intersection of the first support block and the second support block to fix the position of the intersection end of the two groups of aluminum profiles on the first support block and the second support block, and the driving component is arranged on one side of the first support block, so that personnel can control and drive the driving component to horizontally slide on the base along the length direction of the driving component, thereby changing the mode that the position adjustment and the position fixation of the splicing between the two groups of aluminum profiles need the personnel to manually measure and fix and manually support the two groups of aluminum profiles for splicing, and greatly reducing the labor amount of manual work.

Drawings

FIG. 1 is a schematic structural diagram for showing a part of a mechanism on a base according to an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic diagram illustrating the relative positions of the first support block and the second support block according to one embodiment of the present invention;

FIG. 4 is a schematic diagram of a drive assembly on a base shown separately in accordance with one embodiment of the present invention;

fig. 5 is a schematic diagram for separately showing a partial structure of a guide member on a base according to an embodiment of the present invention.

Reference numerals: 1. a fixed seat; 2. a first supporting block; 3. a graduated scale; 4. a base; 5. a notch; 6. a clamping member; 7. placing the blocks; 8. a first pushing component; 9. a support; 10. a second supporting block; 11. a second pushing component; 12. a console; 13. a transverse baffle; 14. a limiting block; 15. a chute; 16. a driving wheel; 17. a stop block is shielded; 18. a first motor; 19. a gear; 20. a first rack; 21. pressing a plate; 22. pressing a plate; 23. a second motor; 24. and a second rack.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the scope of protection is not limited to the embodiment, and any technical solutions that fall under the spirit of the present invention should fall under the scope of protection of the present invention, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the scope of protection of the present invention.

It is noted that, in this document, relational terms such as first and second, e.g., "pusher one, pusher two," and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any such actual relationship or order between such entities or actions.

The directional terms such as "upper, lower, left, right" and the like in the present embodiment are only used in conjunction with the accompanying drawings to make those skilled in the art understand the relationship between the respective features or parts and the like.

As shown in fig. 1 to 2, an auxiliary splicing device for an aluminum profile cabinet comprises a rectangular base 4, a console 12 for supporting the rectangular base is arranged below the base 4, in this embodiment, the console 12 adopts a technical means which is conventionally known and applied by a person skilled in the art, and aims to place circuits and components in the whole device and perform centralized control of the person, a first supporting block 2 and a second supporting block 10 are arranged on the upper side of the base 4 and are arranged vertically and horizontally, the first supporting block 2 is arranged in parallel along the width direction of the base 4, the second supporting block 10 is arranged in parallel along the length direction of the base 4 and are both L-shaped, the bottom ends of the first supporting block 2 and the second supporting block 10 are fixed on the base 4, and two groups of aluminum profiles to be spliced are respectively placed in the first supporting block 2 and the second supporting block 10 in an L-shaped manner.

A rack I20 is fixed on the outer wall of the left side of the supporting block I2, the length of the rack I20 is consistent with that of the supporting block I2, and a T-shaped sliding groove 15 is arranged at the bottom side of the inner wall of the aluminum profile, an I-shaped limiting block 14 is arranged in the sliding groove 15 in a sliding manner, the upper end of the limiting block 14 is positioned at the bottom side of the inner wall of the first supporting block 2, it should be noted that the shape of the upper end of the limiting block 14 can be replaced according to the shape of the groove on the surface of the aluminum profile, the purpose is to enable the upper end of the limiting block 14 to be inserted into the lower side of the aluminum profile placed on the supporting block I2 in a sliding mode, prevent the aluminum profile from shifting left and right on the supporting block I2, meanwhile, the front side of the first supporting block 2 is located at the left end of the opening of the sliding groove 15 and is horizontally provided with the L-shaped transverse baffle 13 in a sliding mode along the length direction of the opening, the transverse baffle 13 is driven to move rightwards, the right end of the transverse baffle 13 can be moved to the right end of the opening of the sliding groove 15, and therefore the limiting block 14 is prevented from sliding out of the sliding groove 15.

As shown in fig. 1, the bottom side of the first supporting block 2 is horizontally connected with the base 4 in a sliding manner back and forth through a T-shaped slide bar (not shown in the drawing).

The positive rear end that lies in supporting shoe 2 on base 4 is provided with and is used for placing the spacing subassembly of an aluminium alloy end part centre gripping on supporting shoe 2, and spacing subassembly is including fixing the piece 7 of placing that is the cuboid on base 4, places and offers on the piece 7 and place aluminium alloy position relative rectangle breach 5 on supporting shoe 2, and the outer wall both ends relatively fixed of breach 5 has holder 6.

As shown in fig. 3, a cuboid support 9 is slid at the rear end of the upper side of a first support block 2, the upper side of the right end of the support 9 is fastened and connected with the left end of the upper side of a second support block 10 by bolts, a first pushing member 8 is fixed on the support 9, a fixed seat 1 is fixed at the front end of the upper side of the first support block 2, and a second pushing member 11 is fixed above the fixed seat 1, in this embodiment, cylinders with different specifications and models are adopted for a clamping member 6, the first pushing member 8 and the second pushing member 11, and personnel can replace different types of cylinders according to requirements, all the three aims to fix the aluminum profiles on the first support block 2 at each position, and clamping plates (not marked in the drawing) and pressing plates 22 and pressing plates 21 are respectively fixed at the top ends of respective piston rods of the clamping member 6, the first pushing member 8 and the second pushing member 11, and are all used for directly contacting the aluminum profiles, it is required to explain that the length of the pressing plates 22 is longer than the width of the aluminum profiles placed on the first support block 2, the purpose is that the pressing plate 22 can be contacted with the adjacent ends of the aluminum profiles of the first supporting block 2 and the second supporting block 10 when driven to move.

The upper side of the base 4 is embedded with a graduated scale 3, and the graduated scale 3 is horizontally placed along the length direction of the first supporting block 2.

As shown in fig. 4, a first motor 18 is fixed at the lower end of the base 4, the upper end of the base 4, which is located on the base 4, is penetrated through by the top end of the output shaft of the first motor 18, a gear 19 is fixedly arranged on the outer wall of the top end of the output shaft of the first motor, the gear 19 is meshed with a first rack 20 fixed on the outer wall of the first support block 2, a shielding block 17 of a cuboid is arranged at the intersection of the first support block 2 and the second support block 10, the upper end of the shielding block 17 is located on the upper side of the base 4, the lower end of the shielding block is located below the base 4, the upper end of the shielding block 17 is vertically arranged with the upper side of the base 4, and a notch for placing one end of the graduated scale 3 close to the first support block 2 is further formed in the upper end of the shielding block 17.

It should be noted that, in this embodiment, a certain distance is provided between one end of the first supporting block 2 close to the second supporting block 10 and one side of the shielding block 17 facing the first supporting block 2, and the purpose is that the aluminum profile placed on the first supporting block 2 needs to be longer than the first supporting block 2 by one section, so that when one end of the aluminum profile placed enters the notch 5 in the placing block 7, the first supporting block 2 abuts against the outer wall of the placing block 7.

As shown in fig. 5, a second motor 23 is fixed on the lower side of the base 4, a driving wheel 16 is fixed on the outer wall of the output shaft of the second motor 23, and a second rack 24 engaged with the driving wheel 16 is embedded and fixed on one side of the blocking piece 17, which is located at the lower end of the base 4 and is close to the second motor 23.

In the present embodiment, the clamping member 6, the first pushing member 8, and the second pushing member 11 are electrically connected to the console 12, and a touch control panel (not shown in the drawings) is disposed on the front side of the console 12 for a user to operate.

When the personnel do not splice the aluminium alloy, holder 6 and pushing member 8 and pushing member are in the state of retracting, and the upper end that shelters from piece 17 is located the top of base 4, is in the crossing department of supporting shoe 2 and supporting shoe two 10, and horizontal baffle 13 violently inserts at the opening part of spout 15.

When the person needs to splice the aluminum profiles, the aluminum profiles are spliced according to the needs, for example, the two traditional aluminum profiles are spliced by respectively butting one end of each of the two sets, the person firstly controls the motor two 23 to rotate forwards through the console 12, drives the rack two 24 fixed with the shielding block 17 through the driving wheel 16 fixed on the outer wall of the output shaft of the person, so that the shielding block 17 moves downwards vertically, the upper side of the shielding block 17 is aligned with the upper side of the base 4, then the person aligns one end of one set of aluminum profiles and enables the upper end of the limiting block 14 to be inserted into the lower side of the aluminum profile through the limiting block 14 on the upper end of the inner side of the supporting block one 2, the aluminum profile is integrally slid onto the supporting block one 2, then the aluminum profile of the other set is placed on the supporting block two 10, the front ends of the aluminum profiles of one set of the two sets are attached to the side end of the other set, then the console 12 controls the pushing piece one 8 to be started, so that the piston rod of the pushing piece drives the pressing plate 22 to move downwards vertically, and the aluminum profiles on the first supporting block 2 and the second supporting block 10 are contacted and fixed so as to be spliced by a person.

When a group of aluminum profiles needs to be spliced at a specific position on another group of aluminum profiles, the first supporting block 2 is used for placing an aluminum profile serving as a base, the second supporting block 10 is used for placing another group of aluminum profiles, personnel firstly place the aluminum profile serving as the base on the first supporting block 2 in the same manner as above to enable the front end face of the aluminum profile on the first supporting block 2 to be attached to one side, away from the placing block 7, of the shielding block 17, wherein a zero mark of the graduated scale 3 is located right below the attaching position of the shielding block 17 and the front end face of the aluminum profile on the first supporting block 2, then the personnel control the second pushing piece 11 to be started through the control console 12, the second pushing piece 11 drives the pressing plate 21 to vertically move downwards through a piston rod of the second pushing piece 2 to press the aluminum profile on the first supporting block, then control the second motor 23 to be started to rotate forwards through the control console 12, the driving wheel 16 fixed on the outer wall of the output shaft of the second motor 23 drives the second rack 24 fixed at the side end of the shielding block 17, the blocking block 17 is driven to vertically move downwards through the second rack 24, so that the upper side of the blocking block 17 is flush with the upper side of the base 4 and is not blocked at the front ends of the first supporting block 2 and the second supporting block 10 respectively, then the first motor 18 is controlled to rotate forwards to drive the gear 19 fixed on the outer wall of the output shaft of the first motor to rotate in the same direction and drive the second rack 24 to be meshed and driven to synchronously drive the first supporting block 2 fixed with the second rack 24 to horizontally move towards the placing block 7 along the length direction of the first supporting block 2, when the specified distance is reached, the first motor 18 is stopped, the first supporting block 2 and the second supporting block 10 are arranged in a T shape, a person places another group of aluminum profiles on the second supporting block 10, then the person starts the first pushing piece 8 to enable the pressing plate 22 on the piston rod of the first pushing piece 8 to press the adjacent ends of the two groups of aluminum profiles placed on the first supporting block 2 and the second supporting block 10 respectively, and then the person starts splicing work, the measurement placement is not required to be carried out manually.

When the aluminum profile serving as the base is longer than the first support block 2 and the distance between the installation position of the other group of aluminum profiles to be spliced and the opposite two ends of the aluminum profile is longer than the total length of the first support block 2, a person cannot simply move the first support block 2 to splice the two groups of aluminum profiles, firstly, the person controls the motor 23 to start through the console 12 to enable the upper side of the blocking block 17 to be flush with the upper side of the base 4, then the person slides the group of aluminum profiles on the first support block 2, one ends of the aluminum profiles penetrate through the first support block 2 to be positioned in the notch 5 of the placing block 7, the console 12 controls the clamping pieces 6 at the opposite two ends of the placing block 7 to drive the clamping plates to clamp the two sides of the aluminum profiles, and the same graduated scale 3 is fixed at the zero marking end of the graduated scale 3 towards the first support block 2, so that the person can conveniently observe the extension length of the aluminum profiles in the first support block 2, firstly, a person sends an aluminum profile from a placing block 7 on a base 4 to a supporting block I2, one end of the aluminum profile passes through a gap 5 of the placing block 7 and then enters the supporting block I2, one side of the aluminum profile far away from the placing block 7 is aligned with one side of the supporting block I2 far away from the placing block 7, then the person controls a clamping piece 6 through a control console 12 to clamp one end of the aluminum profile in the gap 5 of the placing block 7 by using a clamping plate, after the position of the aluminum profile on the supporting block I2 is fixed, the control console 12 controls a motor I18 to rotate forward and start, so that the supporting block I2 moves horizontally towards the placing block 7 along the length direction of the supporting block I2 through a rack, the aluminum profile on the supporting block I2 is fixed by the clamping piece 6 due to the position, therefore the aluminum profile cannot move synchronously with the supporting block I2, the supporting block I2 stops after moving for a corresponding distance, then the person controls a pushing piece II 11 to start and the clamping piece 6 to lose power through the control console 12, therefore, the second pushing piece 11 drives the pressing plate 21 to press the aluminum profiles on the first supporting block 2 through the piston rod of the second pushing piece, the clamping piece 6 is powered off to enable the clamping plate driven by the second pushing piece to not clamp and fix the aluminum profiles, then the first motor 18 is started to rotate reversely, the first supporting block 2 drives the aluminum profiles on the first supporting block to horizontally move back to the initial position of the first supporting block 2 in the direction far away from the placing block 7, then personnel place another group of aluminum profiles on the second supporting block 10 and enable the aluminum profiles to be close to the first supporting block 2 and attached to the surface of the aluminum profiles on the first supporting block 2, then the first pushing piece 8 is controlled to be started through the control console 12, the first pushing piece 8 drives the pressing plate 22 to move downwards through the piston rod of the first pushing piece to press the intersected end of the two groups of aluminum profiles, and then the personnel carry out splicing work.

It should be noted that the aluminum profile on the second support block 10 is spliced on the aluminum profile serving as the base, and the distance between the right end face of the aluminum profile and the right end face of the aluminum profile serving as the base minus the upper limit distance for movement of the first support block 2 is the movement distance for the first support block 2 to move alone.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims (8)

1. The auxiliary splicing device for the aluminum profile cabinet is characterized by comprising a base (4), wherein a first supporting block (2) and a second supporting block (10) for placing two groups of aluminum profiles to be spliced are arranged on the base (4) respectively, and the first supporting block (2) and the second supporting block (10) are arranged vertically in the transverse and longitudinal directions;

a driving component is arranged on one side of the first supporting block (2);

the driving component can drive the first supporting block (2) to reciprocate on the base (4) along the direction which is horizontal and vertical to the second supporting block (10);

a fixing component is arranged at the intersection of the first supporting block (2) and the second supporting block (10);

the fixing assembly comprises a support (9) arranged at the intersection of the first support block (2) and the second support block (10) and a first pushing piece (8) arranged on the support (9), a pressing plate (22) is arranged at one end of the first pushing piece (8), and the pressing plate (22) is positioned right above the intersection of the first support block (2) and the second support block (10);

the first pushing piece (8) can drive the pressing plate (22) to reciprocate along the vertical direction of the first supporting block (2), so that the ends, located on the first supporting block (2) and the second supporting block (10), of the aluminum profiles intersected with each other are pressed and fixed.

2. The aluminum profile cabinet auxiliary splicing device is characterized in that the driving assembly comprises a first motor (18) arranged on one side of the first supporting block (2) and a first rack (20) arranged on the supporting block (2) on one side of the first motor (18), and a gear (19) meshed with the first rack (20) is sleeved on the outer wall of an output shaft of the first motor (18).

3. The aluminum profile cabinet auxiliary splicing device according to claim 1, further comprising a guide assembly, wherein the guide assembly comprises a limiting block (14) which is arranged on the first supporting block (2) in a sliding mode and is used for being inserted into one end of an aluminum profile on the first supporting block (2), and a shielding block (17) which is arranged on the base (4) and is located at the intersection of the first supporting block (2) and the second supporting block (10), a second motor (23) is arranged on the side, away from the first supporting block (2), of the base (4), a driving wheel (16) is sleeved on the outer wall of an output shaft of the second motor (23), one end of the shielding block (17) penetrates through the base (4), and a second rack (24) meshed with the driving wheel (16) is arranged at one end of the base (4).

4. The aluminum profile cabinet auxiliary splicing device as claimed in claim 3, wherein a sliding groove (15) is formed in one end, away from the blocking piece (17), of the first supporting block (2), one end of the limiting block (14) is slidably arranged in the sliding groove (15), and a transverse baffle (13) is slidably arranged at an opening of the sliding groove (15).

5. The aluminum profile cabinet auxiliary splicing device is characterized by further comprising a pressing assembly, wherein the pressing assembly comprises a fixing seat (1) arranged on the first supporting block (2), a second pushing piece (11) is arranged on the fixing seat (1), a pressing plate (21) is arranged on one side, located on the first supporting block (2), of the second pushing piece (11), and driven by the second pushing piece (11), and can drive the pressing plate (21) to move in a reciprocating mode in the vertical direction of the first supporting block (2), so that aluminum profiles on the first supporting block (2) are subjected to contact fixing and are pressed in a loosening mode.

6. The aluminum profile cabinet auxiliary splicing device according to claim 1, further comprising a limiting component, wherein the limiting component comprises a placing block (7) arranged on the base (4) and clamping pieces (6) arranged on the placing block (7), notches (5) for inserting one end of the aluminum profile on the first supporting block (2) are formed in the placing block (7), and two groups of clamping pieces (6) are arranged on the placing block (7) and are respectively arranged at two opposite ends of the placing block (7).

7. The aluminum profile cabinet auxiliary splicing device is characterized in that a graduated scale (3) is embedded in the base (4) along the length direction of the first supporting block (2), and the zero point of the graduated scale (3) is attached to one side, close to the second supporting block (10), of the first supporting block (2).

8. The aluminum profile cabinet auxiliary splicing device is characterized in that a control console (12) for personnel to operate is arranged on one side, away from the first supporting block (2), of the base (4).

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