CN218989683U - Portable movable ironing table - Google Patents

Abstract

The utility model relates to a portable movable ironing table, which relates to the technical field of clothing manufacture, and comprises an ironing table body, a portal frame fixedly arranged above the ironing table body, an iron arranged above the ironing table body, a steam conveying pipe and a line arranged between the iron and the ironing table body, a movable clamping mechanism arranged on the portal frame and used for clamping the steam conveying pipe and the line and simultaneously enabling the steam conveying pipe and the line to move along with the movement of the iron, and a supporting table fixedly arranged on one side of the ironing table body and used for temporarily placing the iron; the steam delivery pipe is a hose. This application has the circuit that makes the flatiron and flatiron intercommunication and steam delivery pipe be difficult for leading to the fact the interference to staff's hand removal at the in-process of reciprocal ironing, improves staff's effect of ironing efficiency.

Description

Portable movable ironing table

Technical Field

The application relates to the field of clothing manufacturing technology, in particular to a portable movable ironing table.

Background

The ironing table can be divided into a ironing machine and a ironing table of the ironing machine according to functions; the structure can be divided into an armless, a single arm and a double arm ironing table; the ironing table can be divided into a inching ironing table and a pedal ironing table according to a starting mode, the ironing table preshrinks the fabric through ironing, and wrinkles are eliminated, so that the fabric is kept flat, and the ironing table is one of indispensable professional equipment in the clothing manufacturing industry.

At present, the ironing table includes workstation, water tank, steam generator, flatiron, dehydrating unit, and steam delivery pipe and the circuit of being connected with the flatiron, and the staff prevents on the one hand that the surface fabric from removing along with the flatiron through dehydrating unit after ironing the surface fabric, on the other hand is the surface fabric rapid cooling design that just ironed to make the surface fabric remain level, but, the in-process of ironing the surface fabric back and forth through the flatiron, circuit and the steam delivery pipe that communicates with the flatiron can cause the interference to staff's hand removal, lead to staff removal and operation inconvenience, influence staff's ironing efficiency.

Disclosure of Invention

In order to enable the iron to be difficult to interfere with hand movement of staff in a reciprocating ironing process through a circuit communicated with the iron and the steam conveying pipe, ironing efficiency of the staff is improved, and the portable movable ironing table is provided.

The application provides a portable removal scalds platform adopts following technical scheme:

a portable movable ironing table comprises an ironing table body, a portal frame fixedly arranged above the ironing table body, an iron arranged above the ironing table body, a steam conveying pipe and a steam conveying line arranged between the iron and the ironing table body, a movable clamping mechanism arranged on the portal frame and used for clamping the steam conveying pipe and the steam conveying line and simultaneously enabling the steam conveying pipe and the steam conveying line to move along with the movement of the iron, and a supporting table fixedly arranged on one side of the ironing table body and used for temporarily placing the iron; the steam delivery pipe is a hose.

By adopting the technical scheme, when a worker irones the fabric through the ironing table, the fabric is firstly placed on the workbench above the ironing table body, then the power supply and the steam generator are started, and then the worker holds the iron to iron the fabric; wherein the staff removes the in-process that the flatiron ironed the surface fabric, remove fixture with steam delivery pipe and circuit row fixed, and steam delivery pipe and circuit can follow the removal of flatiron to make steam delivery pipe and circuit be difficult for piling up to the workstation of scalding the platform body, and make circuit and steam delivery pipe be difficult for touching the surface fabric and cause the local fold of surface fabric at the in-process that removes when the staff removes the flatiron, make the surface fabric more level and smooth that the surface fabric ironed, the flatiron is difficult for causing the interference to the hand removal of staff with the circuit and the steam delivery pipe of flatiron intercommunication in the in-process that reciprocates ironing moreover, and then improved staff's ironing efficiency.

Optionally, the movable clamping mechanism comprises a transverse guide rail fixedly arranged on the portal frame, a longitudinal guide rail slidingly connected below the transverse guide rail along the length direction of the transverse guide rail, a supporting block slidingly connected below the longitudinal guide rail along the length direction of the longitudinal guide rail, a clamping component arranged below the supporting block and used for fixing the steam delivery pipe and the line pipe, and a guiding supporting component arranged between the transverse guide rail and the longitudinal guide rail and used for guiding and reinforcing the movement of the longitudinal guide rail; the transverse guide rail and the longitudinal guide rail are mutually perpendicular.

Through adopting above-mentioned technical scheme, when making steam delivery pipe and circuit follow the removal of flatiron through removing fixture and follow with it, at first when the staff removes the flatiron, flatiron can drive circuit and steam delivery pipe and remove, circuit and steam delivery pipe drive clamping assembly and supporting shoe follow longitudinal rail's length direction and remove, clamping assembly and supporting shoe drive longitudinal rail simultaneously and remove along transverse rail's length direction, thereby make circuit and steam delivery pipe follow horizontal and indulge arbitrary direction and remove, and circuit and steam delivery pipe between flatiron and the clamping assembly can remain unchanged throughout, thereby make circuit and the steam delivery pipe that is connected with the flatiron be difficult for piling up and scatter to the workstation, and be difficult for causing the interference when removing the flatiron to the staff, make the cloth be difficult for carrying out the fold, improve staff's quality and efficiency of ironing the cloth.

Optionally, the clamping assembly comprises a fixed block fixedly arranged below the supporting block, a clamping block hinged to one side of the fixed block, two connecting blocks respectively fixedly arranged on one side of the fixed block and one side of the clamping block away from the supporting block, and a connecting bolt arranged between the two connecting blocks; the steam delivery pipe and the line are positioned between the clamping block and the fixed block.

Through adopting above-mentioned technical scheme, when fixing circuit and steam delivery pipe through the clamping component, at first the staff places circuit and steam delivery pipe between fixed block and grip block, rotates the grip block and compresses tightly circuit and steam delivery pipe to connect two connecting blocks through connecting bolt, can realize that fixed block and grip block keep away from one side of supporting shoe fixed, thereby realize the fixed of circuit and steam delivery pipe.

Optionally, the clamping groove with circuit and steam delivery pipe looks adaptation has all been symmetrically offered to one side that said fixed block and clamping block are close to each other, the arc is personally submitted to the clamping groove transversal setting, circuit and steam delivery pipe all are located the clamping groove that corresponds, just the rubber layer has been laid to clamping groove inside wall.

Through adopting above-mentioned technical scheme, the centre gripping groove that the arc set up can make steam conveying pipe be difficult for extrusion deformation to more do benefit to the transport of steam, the rubber layer makes steam conveying pipe and circuit be difficult for taking place to slide simultaneously, improves the fixed effect to steam conveying pipe and circuit.

Optionally, a first dovetail block is fixedly arranged at the top of the longitudinal guide rail, a first dovetail groove is formed in the bottom of the transverse guide rail along the length direction of the transverse guide rail, and the first dovetail block slides in the first dovetail groove; the top of the supporting block is fixedly provided with a second dovetail block, the bottom of the longitudinal guide rail is provided with a second dovetail groove along the length direction of the longitudinal guide rail, and the second dovetail block is positioned in the second dovetail groove to slide.

Through adopting above-mentioned technical scheme, first forked tail piece and second forked tail piece play direction and support effect to the lateral shifting of longitudinal rail and the longitudinal shifting of supporting shoe respectively to the removal of longitudinal rail and supporting shoe plays spacing effect, makes longitudinal rail and supporting shoe can not break away from top to bottom.

Optionally, the guiding support assembly comprises four guiding support rods respectively fixed on the longitudinal guide rail and a roller wheel rotatably connected to one side of the guiding support rods far away from the longitudinal guide rail; the guide support rod is obliquely arranged from the longitudinal guide rail to one side of the transverse guide rail, and the roller wheel is abutted against the side wall of the transverse guide rail.

Through adopting above-mentioned technical scheme, direction bracing piece and running roller are used for playing the effect of direction and rectifying when removing along transverse rail length direction to the longitudinal rail, and be difficult for taking place to rock when making the longitudinal rail remove and be difficult for appearing the dead phenomenon of card when making the longitudinal rail remove simultaneously, make the longitudinal rail remove more smoothly, be used for reducing the stress concentration and the torsional force of longitudinal rail and transverse rail junction moreover, make longitudinal rail and transverse rail junction be difficult for taking place the fracture.

Optionally, a backflow pipeline is arranged between the bottom of the supporting table and the water storage tank of the ironing table body, a backflow hole is formed in the supporting table, and the backflow hole is communicated with the backflow pipeline.

Through adopting above-mentioned technical scheme, after the staff finishes ironing the cloth, steam and the drop of water that remains in flatiron and the steam delivery pipe condensation back accessible backward flow hole flows back to the storage water tank in to make water be difficult for scattering to scalding on the workstation of platform body, improve the neatly degree of scalding the platform body workstation.

Optionally, a filter screen is arranged on the supporting table, and the filter screen is positioned above the reflow hole.

Through adopting above-mentioned technical scheme, the filter screen can filter the surface fabric piece of flatiron bottom adhesion, makes the surface fabric piece be difficult for getting into in the reflow hole, improves the stability of scalding the platform operation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the process of ironing the fabric by moving the iron by the staff, the steam conveying pipe and the line are fixed by the movable clamping mechanism, and the steam conveying pipe and the line can move along with the movement of the iron, so that the steam conveying pipe and the line are not easy to stack on the workbench of the ironing table body, and the line and the steam conveying pipe are not easy to touch the fabric in the moving process to cause local wrinkling of the fabric when the staff moves the iron, so that the fabric is ironed more smoothly, and the line and the steam conveying pipe communicated with the iron in the reciprocating ironing process of the iron are not easy to cause interference to the hand movement of the staff, so that the ironing efficiency of the staff is improved;

2. the iron can drive the circuit and the steam conveying pipe to move along any direction in the transverse and longitudinal directions, and the circuit and the steam conveying pipe between the iron and the clamping assembly can be kept unchanged all the time, so that the circuit and the steam conveying pipe connected with the iron are not easy to stack and scatter on the workbench, interference is not easy to be caused when a person moves the iron, the cloth is not easy to be wrinkled, and the quality and the efficiency of ironing the cloth by staff are improved;

3. the guide support rods and the rollers are used for guiding and rectifying deviation when the longitudinal guide rail moves along the length direction of the transverse guide rail, so that the longitudinal guide rail is not easy to shake when moving and is not easy to be blocked when moving, the longitudinal guide rail moves more smoothly, and the guide support rods and the rollers are used for reducing stress concentration and torsion force at the joint of the longitudinal guide rail and the transverse guide rail and are not easy to break at the joint of the longitudinal guide rail and the transverse guide rail;

4. after the worker finishes ironing cloth, residual steam and water drops in the iron and the steam conveying pipe can flow back to the water storage tank through the backflow hole after being condensed, so that water is not easy to scatter on the workbench of the ironing table body, the neatness of the ironing table body workbench is improved, the filter screen can filter fabric scraps adhered to the bottom of the iron, the fabric scraps are not easy to enter the backflow hole, and the operation stability of the ironing table is improved.

Drawings

Fig. 1 is a schematic structural view of an ironing table in an embodiment of the present application;

FIG. 2 is a schematic diagram showing an exploded construction of a filter screen when installed;

FIG. 3 is a schematic view showing a partial structure of the movable clamping mechanism;

fig. 4 is a partial cross-sectional view showing the moving clamping mechanism.

Reference numerals illustrate: 1. a ironing table body; 2. an iron; 3. a steam delivery pipe; 4. a line; 5. a portal frame; 6. moving the clamping mechanism; 61. a transverse guide rail; 62. a longitudinal guide rail; 63. a first dovetail block; 64. a support block; 65. a second dovetail block; 66. a roller; 67. a clamping assembly; 671. a fixed block; 672. a clamping block; 673. a connecting block; 674. a connecting bolt; 675. a clamping groove; 68. a guide support assembly; 681. a guide support rod; 682. a roller; 7. a support table; 71. a reflow hole; 8. a return line; 9. and (3) a filter screen.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a portable movable ironing table. Referring to fig. 1 and 2, the ironing table comprises an ironing table body 1, an iron 2 is arranged above the ironing table body 1, a steam delivery pipe 3 and a circuit 4 are arranged between the iron 2 and the ironing table body 1, and the steam delivery pipe 3 is a hose. The upper part of the ironing table body 1 is fixedly provided with a portal frame 5, the portal frame 5 is provided with a movable clamping mechanism 6, and the movable clamping mechanism 6 is used for clamping the steam delivery pipe 3 and the circuit 4 and simultaneously enabling the steam delivery pipe 3 and the circuit 4 to move along with the movement of the iron 2. The supporting table 7 for temporarily placing the iron 2 is further fixedly arranged on one side of the ironing table body 1, a backflow pipeline 8 is arranged between the bottom of the supporting table 7 and the water storage tank of the ironing table body 1, a backflow hole 71 is formed in the supporting table 7, and the backflow hole 71 is communicated with the backflow pipeline 8. Be provided with filter screen 9 on supporting bench 7, filter screen 9 is located the reflow hole 71 top, and filter screen 9 is used for filtering the surface fabric piece of flatiron 2 bottom adhesion, makes the difficult entering reflow hole 71 of surface fabric piece in, improves the stability of scalding the platform operation.

When a worker irones fabric through an ironing table, firstly, placing the fabric on the workbench above the ironing table body 1, then starting a power supply and a steam generator, and then, holding the iron 2 by the worker to iron the fabric, wherein in the process of ironing the fabric by the worker by moving the iron 2, the steam conveying pipe 3 and the line 4 are fixed through the moving clamping mechanism 6, and the steam conveying pipe 3 and the line 4 can move along with the movement of the iron 2, so that the steam conveying pipe 3 and the line 4 are not easy to stack on the workbench of the ironing table body 1, and the line 4 and the steam conveying pipe 3 are not easy to touch the fabric in the moving process to cause local wrinkles of the fabric when the worker moves the iron 2; and after the worker finishes ironing the cloth, residual steam and water drops in the iron 2 and the steam delivery pipe 3 can flow back to the water storage tank through the reflow hole 71 after being condensed, so that water is not easy to scatter on the workbench of the ironing table body 1, and the neatness of the workbench of the ironing table body 1 is improved.

Referring to fig. 3 and 4, the moving clamping mechanism 6 includes a transverse rail 61 fixed on the portal frame 5, the transverse rail 61 is slidingly connected with a longitudinal rail 62 along the length direction thereof, the transverse rail 61 and the longitudinal rail 62 are perpendicular to each other, and the longitudinal rail 62 is located below the transverse rail 61. The top of the longitudinal guide rail 62 is fixedly provided with a first dovetail block 63, the bottom of the transverse guide rail 61 is provided with a first dovetail groove along the length direction of the transverse guide rail, and the first dovetail block 63 is positioned in the first dovetail groove to slide. The supporting block 64 is connected with the below of the longitudinal guide rail 62 in a sliding manner along the length direction of the supporting block, the second dovetail block 65 is fixedly arranged at the top of the supporting block 64, the second dovetail groove is formed in the bottom of the longitudinal guide rail 62 in the length direction of the supporting block, the second dovetail block 65 is positioned in the second dovetail groove and slides, the tops of the first dovetail block 63 and the second dovetail block 65 are both rotationally connected with the roller 66, the roller 66 of the first dovetail block 63 is positioned in the first dovetail groove and slides, and the roller 66 of the second dovetail block 65 is positioned in the second dovetail groove.

Referring to fig. 3 and 4, a clamping assembly 67 is provided below the support block 64, the clamping assembly 67 being used to fix the steam delivery pipe 3 and the conduit. A guide support assembly 68 is provided between the transverse rail 61 and the longitudinal rail 62, the guide support assembly 68 being used for guiding and reinforcing the movement of the longitudinal rail 62.

Referring to fig. 3 and 4, the clamping assembly 67 includes a fixing block 671 fixed under the supporting block 64, a clamping block 672 is hinged to one side of the fixing block 671, and the steam delivery pipe 3 and the line 4 are located between the clamping block 672 and the fixing block 671. Two connecting blocks 673 are respectively fixedly arranged on one side of the fixing block 671 and one side of the clamping block 672, which are far away from the supporting block 64, and a connecting bolt 674 is connected between the two connecting blocks 673 in a threaded manner. Clamping grooves 675 matched with the circuit 4 and the steam conveying pipe 3 are symmetrically formed in one sides, close to each other, of the fixing blocks 671 and the clamping blocks 672, the cross sections of the clamping grooves 675 are arc-shaped, the circuit 4 and the steam conveying pipe 3 are located in the corresponding clamping grooves 675, and the arc-shaped clamping grooves 675 enable the steam conveying pipe 3 not to be easy to squeeze and deform, so that steam conveying is facilitated. The inner side wall of the clamping groove 675 is also paved with a rubber layer which is used for enabling the steam conveying pipe 3 and the circuit 4 not to slide easily, so that the fixing effect on the steam conveying pipe 3 and the circuit 4 is improved.

Referring to fig. 3 and 4, the guide support assembly 68 includes four guide support bars 681 respectively fixed to the longitudinal rails 62, and the guide support bars 681 are inclined from the longitudinal rails 62 toward the lateral rails 61. The guide support rod 681 is connected with the running roller 682 in a rotating way far away from one side of the longitudinal guide rail 62, the running roller 682 is abutted with the side wall of the transverse guide rail 61, the guide support rod 681 and the running roller 682 are used for guiding and rectifying deviation when the longitudinal guide rail 62 moves along the length direction of the transverse guide rail 61, so that the longitudinal guide rail 62 is not easy to shake when moving, meanwhile, the longitudinal guide rail 62 is not easy to be blocked when moving, the longitudinal guide rail 62 moves more smoothly, and the connecting part of the longitudinal guide rail 62 and the transverse guide rail 61 is used for reducing stress concentration and torsion force of the connecting part of the longitudinal guide rail 62 and the transverse guide rail 61, and is not easy to break.

When the clamping mechanism 6 is moved to enable the steam delivery pipe 3 and the line 4 to move along with the movement of the iron 2, firstly, a worker places the line 4 and the steam delivery pipe 3 between the fixing block 671 and the clamping block 672, adjusts the lengths of the line 4 and the steam delivery pipe 3 between the iron 2 and the clamping assembly 67, then rotates the clamping block 672 to compress the line 4 and the steam delivery pipe 3, and connects two connecting blocks 673 through the connecting bolt 674, so that the line 4 and the steam delivery pipe 3 are fixed, then the worker moves the iron 2, the iron 2 drives the line 4 and the steam delivery pipe 3 to move, then the line 4 and the steam delivery pipe 3 drive the clamping assembly 67 and the supporting block 64 to move along the length direction of the longitudinal guide rail 62, and simultaneously the clamping assembly 67 and the supporting block 64 drive the longitudinal guide rail 62 to move along the length direction of the transverse guide rail 61 under the guide support rod 681 and the roller 682, so that the line 4 and the steam delivery pipe 3 can be kept unchanged all the time, and the line 4 and the steam delivery pipe 3 between the iron 2 and the clamping assembly 67 can be stacked on the work table, so that the line 4 and the steam delivery pipe 3 connected with the iron 2 cannot easily fall down.

The implementation principle of the portable mobile ironing table in the embodiment of the application is as follows: when a worker irones the fabric through the ironing table, firstly, placing the fabric on the workbench above the ironing table body 1, then starting a power supply and a steam generator, and then, holding the iron 2 by the worker to iron the fabric; wherein the staff removes flatiron 2 to the in-process that the fabric ironed, through transverse guide 61, vertical guide 62, clamping assembly 67, direction supporting component 68 and supporting shoe 64's effect down drive steam delivery pipe 3 and circuit 4 along with the removal of flatiron 2, thereby make steam delivery pipe 3 and circuit 4 be difficult for piling up to scalding on the workstation of platform body 1, and make circuit 4 and steam delivery pipe 3 be difficult for touching the surface fabric and cause the local fold in the removal in-process when the staff removes flatiron 2, make the more level and smooth that the surface fabric ironed, and flatiron 2 is difficult for causing the interference to the hand removal of staff at the in-process that reciprocates ironed with circuit 4 and steam delivery pipe 3 of flatiron 2 intercommunication, and then improved staff's ironing efficiency.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A portable removal scalds platform which characterized in that: the iron comprises an iron body (1), a portal frame (5) fixedly arranged above the iron body (1), an iron (2) arranged above the iron body (1), a steam conveying pipe (3) and a circuit (4) arranged between the iron (2) and the iron body (1), a movable clamping mechanism (6) which is arranged on the portal frame (5) and used for clamping the steam conveying pipe (3) and the circuit (4) and simultaneously enabling the steam conveying pipe (3) and the circuit (4) to move along with the movement of the iron (2), and a supporting table (7) fixedly arranged on one side of the iron body (1) and used for temporarily placing the iron (2); the steam delivery pipe (3) is a hose.

2. A portable mobile communications device as defined in claim 1, wherein: the movable clamping mechanism (6) comprises a transverse guide rail (61) fixedly arranged on the portal frame (5), a longitudinal guide rail (62) connected below the transverse guide rail (61) in a sliding manner along the length direction of the transverse guide rail (61), a supporting block (64) connected below the longitudinal guide rail (62) in a sliding manner along the length direction of the longitudinal guide rail (62), a clamping assembly (67) arranged below the supporting block (64) and used for fixing the steam delivery pipe (3) and the spool, and a guide support assembly (68) arranged between the transverse guide rail (61) and the longitudinal guide rail (62) and used for guiding and reinforcing the movement of the longitudinal guide rail (62); the transverse guide rail (61) and the longitudinal guide rail (62) are perpendicular to each other.

3. A portable mobile communications device as claimed in claim 2, wherein: the clamping assembly (67) comprises a fixed block (671) fixedly arranged below the supporting block (64), a clamping block (672) hinged to one side of the fixed block (671), two connecting blocks (673) respectively fixedly arranged on one side of the fixed block (671) and one side of the clamping block (672) far away from the supporting block (64), and a connecting bolt (674) arranged between the two connecting blocks (673); the steam delivery pipe (3) and the line (4) are positioned between the clamping block (672) and the fixing block (671).

4. A portable mobile communications device according to claim 3, wherein: clamping grooves (675) matched with the circuits (4) and the steam conveying pipes (3) are symmetrically formed in one sides, close to each other, of the fixing blocks (671) and the clamping blocks (672), the cross sections of the clamping grooves (675) are arc-shaped, the circuits (4) and the steam conveying pipes (3) are located in the corresponding clamping grooves (675), and rubber layers are paved on the inner side walls of the clamping grooves (675).

5. A portable mobile communications device as claimed in claim 2, wherein: the top of the longitudinal guide rail (62) is fixedly provided with a first dovetail block (63), the bottom of the transverse guide rail (61) is provided with a first dovetail groove along the length direction of the transverse guide rail, and the first dovetail block (63) is positioned in the first dovetail groove to slide; the top of the supporting block (64) is fixedly provided with a second dovetail block (65), the bottom of the longitudinal guide rail (62) is provided with a second dovetail groove along the length direction of the longitudinal guide rail, and the second dovetail block (65) is positioned in the second dovetail groove to slide.

6. A portable mobile communications device as claimed in claim 2, wherein: the guide support assembly (68) comprises four guide support rods (681) which are respectively fixedly arranged on the longitudinal guide rail (62), and a roller (682) which is rotatably connected to one side of the guide support rods (681) far away from the longitudinal guide rail (62); the guide support rod (681) is obliquely arranged from the longitudinal guide rail (62) towards one side of the transverse guide rail (61), and the roller wheel (682) is abutted against the side wall of the transverse guide rail (61).

7. A portable mobile communications device according to any one of claims 1-6, wherein: a backflow pipeline (8) is arranged between the bottom of the supporting table (7) and the water storage tank of the ironing table body (1), a backflow hole (71) is formed in the supporting table (7), and the backflow hole (71) is communicated with the backflow pipeline (8).

8. The portable mobile communications device of claim 7 wherein: a filter screen (9) is arranged on the supporting table (7), and the filter screen (9) is positioned above the reflow hole (71).

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