CN217613405U - Heat transfer oil caking filter equipment for heat transfer printing machine - Google Patents

Abstract

The utility model relates to a heat transfer calico printing machine technical field, concretely relates to heat transfer oil caking filter equipment for heat transfer calico printing machine, including the heat conduction oil tank, heat conduction oil tank top is provided with back oil pipe, the level is provided with first slide bar and second slide bar in the heat conduction oil tank of back oil pipe below, first slide bar and second slide bar sliding connection are on the heat conduction oil tank, be provided with first ring and second ring between first slide bar and the second slide bar that is located the heat conduction oil tank, install first filter vat in the first ring, install the second filter vat in the second ring, set up the access hole on the heat conduction oil tank of first slide bar and second slide bar top, the access hole includes first access hole and second access hole, first access hole is located the heat conduction oil tank of back oil pipe one side, the second access hole is located the heat conduction oil tank of back oil pipe opposite side, all be provided with the lid on first access hole and the second access hole.

Description

Heat transfer oil caking filter equipment for heat transfer printing machine

Technical Field

The utility model relates to a heat transfer calico printing machine technical field, concretely relates to heat transfer oil gellan gum filter equipment for heat transfer calico printing machine.

Background

Thermal transfer printing is a new printing and dyeing process which is gradually developed internationally in recent years. The main machine adopts frequency conversion control, special printing and dyeing are carried out by advanced printing technology, all needed design and color patterns are printed on special paper to prepare transfer printing paper with various patterns, then on the transfer printing machine, one surface of the transfer printing paper printed with the patterns is closely combined with a printed fabric, dye of the pattern paper is used to generate sublimation action under the action of heat and pressure to be transferred to the printed fabric, various needed patterns are formed on the printed fabric, and when the heat transfer printing machine is used, a heating roller is needed to heat cloth. The existing heat transfer printing machine heats the surface of a heating roller through heat conduction oil, but the heat conduction oil can generate colloid when meeting air when being heated, so that the inner wall of the heating roller generates the colloid, and the heat conduction efficiency of the heating roller is reduced.

The utility model discloses a utility model with publication number CN 2153976106U discloses a device for preventing the caking of heat transfer oil for a thermal transfer printing machine, which comprises a heat transfer oil tank, wherein a filter screen is fixed at the middle part of the inner side of the heat transfer oil tank, one side of the heat transfer oil tank, which is close to the lower part of the filter screen, is communicated with an oil return pipe, wherein the other side of the heat transfer oil tank, which is close to the upper part of the filter screen, is communicated with an oil outlet pipe, the lower part of the filter screen is rotatably connected with a reciprocating screw rod, a turbine is fixed at the end part of the reciprocating screw rod, which is close to the oil return pipe, a sliding frame is in threaded connection with the reciprocating screw rod, and a scraper is fixed at the top of the sliding frame; the utility model discloses a heat pump oil filter screen, including the carriage, the carriage is provided with the inside of guide way, the both sides of carriage are run through and are had the guide way, the inside of guide way is run through and is had the slide bar, the both ends and the heat conduction oil tank inner wall fixed connection of slide bar, the below of filter screen is provided with clearance mechanism, the heat conduction oil tank is close to the inside of reciprocal lead screw below and is fixed with the water conservancy diversion frame, the heat conduction oil tank is close to below one side and has seted up the row of glue mouth.

Among the above-mentioned technical scheme, the conduction oil that is heated when returning the oil pipe to the heat conduction oil tank in, the conduction oil can produce glue when being heated and air contact, the conduction oil through the filter screen filters the backward flow, avoid the conduction oil to come unstuck in the heating cylinder, lead to heating cylinder heat conduction efficiency to reduce, can drive reciprocal lead screw rotation through the turbine during the conduction oil backward flow simultaneously, reciprocal lead screw can drive carriage reciprocating motion, make the carriage drive the scraper strike off adnexed glue on the filter screen, avoid the filter screen to take place to block up, can effectually filter the conduction oil, avoid the conduction oil to come unstuck in the heating cylinder.

But above-mentioned scheme is when the scraper strikes off the adnexed glue on to the filter screen, and partial glue blocks easily in the filter screen filtration pore, blocks up the filter screen, influences the filter effect.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve above-mentioned technique not enough and provide a heat transfer oil gellan gum filter equipment for heat transfer printing machine, can continuously filter the conduction oil, and be convenient for change filtration.

The utility model discloses a heat transfer oil caking filter device for a heat transfer printing machine, which comprises a heat transfer oil tank, wherein the top of the heat transfer oil tank is provided with an oil return pipe, the pipe orifice of the oil return pipe is vertically downward, the bottom of the heat transfer oil tank is provided with an oil outlet pipe, the oil outlet pipe is provided with an oil pump, a first sliding rod and a second sliding rod which are parallel to each other are horizontally arranged in the heat transfer oil tank below the oil return pipe, the two ends of the first sliding rod and the two ends of the second sliding rod respectively pass through the side wall of the heat transfer oil tank, the first sliding rod and the second sliding rod are connected on the heat transfer oil tank in a sliding way, the two ends of the first sliding rod and the second sliding rod are provided with a limiting structure, a first circular ring and a second circular ring are sequentially and horizontally arranged between the first sliding rod and the second sliding rod which are positioned in the heat transfer oil tank along the length direction of the first sliding rod and the second sliding rod, and a first filter barrel and a second filter barrel are also included, edges are arranged outwards on the upper sides of the first filter barrel and the second filter barrel, the first filter barrel is arranged in the first ring, the edge of the upper side of the first filter barrel is pressed on the first ring, the second filter barrel is arranged in the second ring, the edge of the upper side of the second filter barrel is pressed on the second ring, filter holes are arranged on the side walls of the first filter barrel and the second filter barrel, filter screens are arranged on the filter holes, handles are arranged on the upper sides of the first filter barrel and the second filter barrel, access holes are arranged on the heat conduction oil tanks above the first sliding rod and the second sliding rod, the access holes comprise a first access hole and a second access hole, the first access hole is arranged on the heat conduction oil tank on one side of the oil return pipe, the second access hole is arranged on the heat conduction oil tank on the other side of the oil return pipe, when the first filter barrel is arranged below the oil return pipe, the second filter barrel is arranged below the second access hole, and when the second filter barrel is arranged below the oil return pipe, first filter vat is located first access hole below, all is provided with the lid on first access hole and the second access hole.

The utility model discloses when using, stimulate first slide bar and second slide bar, it is spacing to carry out through limit structure, make first filter vat be located back oil pipe below, when the conduction oil passes through back oil pipe reflux heat conduction oil tank, the conduction oil can get into first filter vat, the conduction oil continues the entering circulation after the filtration through first filter vat, and glue is then stayed in first filter vat, glue in first filter vat accumulates to certain degree after, stimulate first slide bar and second slide bar, it is spacing to carry out through limit structure, make the second filter vat be located back oil pipe below, at this moment, first filter vat is located first access hole below, open the lid on the first access hole, take out first filter vat through the handle and put into again after the clearance, with the clearance after the glue in the second filter vat accumulates to certain degree, clear up the second filter vat, when clearing up first filter vat or second filter vat, can continuously filter the conduction oil.

Further, still include the controller, pressure sensor, servo motor, the apparatus further comprises a rotating shaft, the gear, the rack, first slide bar and second slide bar are provided with the rack along first slide bar and second slide bar length direction on the up end of one end, the rack top is provided with the pivot, be provided with in the pivot with the rack on the gear intermeshing, the pivot both ends are passed behind the heat conduction oil tank lateral wall and are rotated between the heat conduction oil tank and be connected, the heat conduction oil tank outside of pivot one end is provided with servo motor, servo motor is connected with the pivot transmission, between first ring and the first filter vat border, all be provided with pressure sensor between second ring and the second filter vat border, servo motor and pressure sensor are connected with the controller electricity respectively.

Through the pressure sensor, when the colloid in the first filter vat or the second filter vat reaches a certain amount, the controller controls the rotation of the servo motor according to the electric signal of the pressure sensor, the first sliding rod and the second sliding rod slide through the rotating shaft, the gear and the rack, the first filter vat and the second filter vat below the oil return pipe are switched, and a worker can regularly clean the first filter vat or the second filter vat filled with the colloid.

The utility model has the advantages that: when the colloid in first filter vat or the second filter vat is more, through switching first filter vat and second filter vat, can carry out lasting filtration to the conduction oil, also can take out first filter vat or second filter vat fast simultaneously and clear up.

Drawings

FIG. 1 is a front view, cross-sectional view of the present embodiment 1;

FIG. 2 isbase:Sub>A schematic sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic view of the embodiment 1;

fig. 4 is a partially enlarged view of the second lauter tun of the present embodiment 1.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the objects of the present invention, the following detailed description is given to the embodiments, structures, features and effects according to the present invention with reference to the accompanying drawings and preferred embodiments.

Example 1:

as shown in fig. 1, 2, 3 and 4, a heat conduction oil gumming filtering device for a thermal transfer printing machine comprises a heat conduction oil tank 1, wherein an oil return pipe 9 is arranged at the top of the heat conduction oil tank 1, an orifice of the oil return pipe 9 is vertically downward, an oil outlet pipe 2 is arranged at the bottom of the heat conduction oil tank 1, an oil pump 3 is arranged on the oil outlet pipe 2, a first sliding rod 5 and a second sliding rod 13 which are parallel to each other are horizontally arranged in the heat conduction oil tank 1 below the oil return pipe 9, two ends of the first sliding rod 5 and two ends of the second sliding rod 13 respectively penetrate through the side wall of the heat conduction oil tank 1, the first sliding rod 5 and the second sliding rod 13 are slidably connected to the heat conduction oil tank 1, two ends of the first sliding rod 5 and the second sliding rod 13 are provided with a limiting structure 6, a first circular ring 11 and a second circular ring 12 are sequentially and horizontally arranged between the first sliding rod 5 and the second sliding rod 13 in the heat conduction oil tank 1 along the length direction of the first sliding rod 5 and the second sliding rod 13, the device also comprises a first filter vat 8 and a second filter vat 4, the upper sides of the first filter vat 8 and the second filter vat 4 are both provided with edges outwards, the first filter vat 8 is arranged in the first ring 11, the upper side edge of the first filter vat 8 is pressed on the first ring 11, the second filter vat 4 is arranged in the second ring 12, the upper side edge of the second filter vat 4 is pressed on the second ring 12, the side walls of the first filter vat 8 and the second filter vat 4 are both provided with filter holes 18, the filter holes 18 are provided with filter screens, the upper sides of the first filter vat 8 and the second filter vat 4 are both provided with handles 14, the heat-conducting oil tank 1 above the first sliding rod 5 and the second sliding rod 13 is provided with an access hole, the access hole comprises a first access hole 21 and a second access hole 20, the first access hole 21 is positioned on the heat-conducting oil tank 1 at one side of the oil return pipe 9, the second access hole 20 is positioned on the oil tank 1 at the other side of the heat-conducting oil return pipe 9, when first filter vat 8 is located oil return pipe 9 below, second filter vat 4 is located second access hole 20 below, and when second filter vat 4 is located oil return pipe 9 below, first filter vat 8 is located first access hole 21 below, all is provided with lid 7 on first access hole 21 and the second access hole 20.

The automatic filter is characterized by further comprising a controller, a pressure sensor 19, a servo motor 17, a rotating shaft 16, a gear 10 and a rack 15, wherein the rack 15 is arranged on the upper end face of the same end of the first sliding rod 5 and the second sliding rod 13 along the length direction of the first sliding rod 5 and the second sliding rod 13, the rotating shaft 16 is arranged above the rack 15, the gear 10 meshed with teeth on the rack 15 is arranged on the rotating shaft 16, two ends of the rotating shaft 16 penetrate through the side wall of the heat conduction oil tank 1 and then are rotatably connected with the heat conduction oil tank 1, the servo motor 17 is arranged on the outer side of the heat conduction oil tank 1 at one end of the rotating shaft 16 and is in transmission connection with the rotating shaft 16, the pressure sensor 19 is arranged between the first circular ring 11 and the edge of the first filter barrel 8 and between the second circular ring 12 and the edge of the second filter barrel 4, and the servo motor 17 and the pressure sensor 19 are respectively electrically connected with the controller.

The above is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and although the present invention has been disclosed with the preferred embodiments, but the present invention is not limited to the above embodiments, and any person skilled in the art can make some changes or modifications to the equivalent embodiments of the equivalent changes within the technical scope of the present invention without departing from the technical scope of the present invention, but any simplified modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the technical scope of the present invention.

Claims (2)

1. A heat conduction oil caking filtering device for a heat transfer printing machine comprises a heat conduction oil tank (1), wherein an oil return pipe (9) is arranged at the top of the heat conduction oil tank (1), the pipe orifice of the oil return pipe (9) is vertically downward, an oil outlet pipe (2) is arranged at the bottom of the heat conduction oil tank (1), an oil pump (3) is arranged on the oil outlet pipe (2), the heat conduction oil tank is characterized in that a first sliding rod (5) and a second sliding rod (13) which are parallel to each other are horizontally arranged in the heat conduction oil tank (1) below the oil return pipe (9), two ends of the first sliding rod (5) and two ends of the second sliding rod (13) respectively penetrate through the side wall of the heat conduction oil tank (1), the first sliding rod (5) and the second sliding rod (13) are connected onto the heat conduction oil tank (1) in a sliding manner, limiting structures (6) are arranged at two ends of the first sliding rod (5) and the second sliding rod (13), a first ring (11) and a second ring (8) are sequentially arranged between the first sliding rod (5) and the second sliding rod (13) in the heat conduction oil tank (1), a second ring (8) and a second ring (8) are arranged outside the first filtering barrel (8) and further arranged along the length direction of the second filtering barrel (8), the upper side edge of a first filter barrel (8) is pressed on a first circular ring (11), a second filter barrel (4) is installed in a second circular ring (12), the upper side edge of the second filter barrel (4) is pressed on the second circular ring (12), filter holes (18) are formed in the side walls of the first filter barrel (8) and the second filter barrel (4), filter screens are arranged on the filter holes (18), handles (14) are arranged on the upper sides of the first filter barrel (8) and the second filter barrel (4), access holes are formed in heat conduction oil tanks (1) above first sliding rods (5) and second sliding rods (13), the access holes comprise first access holes (21) and second access holes (20), the first access holes (21) are formed in the heat conduction oil tanks (1) on one side of an oil return pipe (9), the second access holes (20) are formed in the heat conduction oil tanks (1) on the other side of the oil return pipe (9), the first filter barrel (8) is located below the oil return pipe (9), the second access holes (4) are located below the second sliding pipes (7), and the access holes (21) are formed in the lower side of the second filter barrel (7), and the access holes (7) and the second access holes (21) are formed in the lower side of the second filter barrel (9).

2. The heat conduction oil gumming and filtering device for the heat transfer printing machine is characterized by further comprising a controller, a pressure sensor (19), a servo motor (17), a rotating shaft (16), a gear (10) and a rack (15), wherein the rack (15) is arranged on the upper end face of the same end of the first sliding rod (5) and the second sliding rod (13) along the length direction of the first sliding rod (5) and the second sliding rod (13), the rotating shaft (16) is arranged above the rack (15), the gear (10) meshed with teeth on the rack (15) is arranged on the rotating shaft (16), two ends of the rotating shaft (16) penetrate through the side wall of the heat conduction oil tank (1) and are connected with the heat conduction oil tank (1) in a rotating mode, the servo motor (17) is arranged on the outer side of the heat conduction oil tank (1) at one end of the rotating shaft (16), the servo motor (17) is in transmission connection with the rotating shaft (16), the first circular ring (11) is arranged between the edge of the first filtering barrel (8), the second circular ring (12) and the edge of the second filtering barrel (4), and the servo motor (19) are respectively and electrically connected with the pressure sensor (19).

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