CN216300549U - Inorganic fireproof polyphenyl thermal insulation board marking device - Google Patents

Abstract

An inorganic fireproof polyphenyl insulation board marking device belongs to the technical field of inorganic fireproof polyphenyl insulation board marking equipment and comprises a bearing frame, a pushing mechanism arranged on the bearing frame and an insulation board fence, conveying mechanism, printing mechanism and control mechanism, pushing mechanism passes through the chain with conveying mechanism and is connected, printing mechanism is located the pushing mechanism both sides, pushing mechanism will pass through heated board propelling movement to conveying mechanism behind the printing mechanism seal mark, control mechanism includes distance sensor and control box, distance sensor and control box electric connection, the control box respectively with printing mechanism and pushing mechanism electric connection, distance sensor exports the detected signal so that the control box can independently drive printing mechanism and pushing mechanism with intermittent type nature's mode to the control box according to pushing mechanism's position, so that the multilayer stacks propelling movement to conveying mechanism after the heated board that bears the frame is printed the mark one by one. The automatic label printing machine is simple to operate, realizes automatic label printing, saves time and labor, and is high in label printing efficiency.

Description

Inorganic fireproof polyphenyl thermal insulation board marking device

Technical Field

The utility model belongs to the technical field of inorganic fireproof polyphenyl insulation board marking equipment, and particularly relates to an inorganic fireproof polyphenyl insulation board marking device.

Background

As a novel environment-friendly energy-saving foam plastic plate, the inorganic fireproof polyphenyl insulation board has the advantages of fire resistance, heat preservation, high tensile strength, no cracking, no deformation, light weight, sawing, nailing and the like, and is widely applied to the building industry. When the inorganic fireproof polyphenyl insulation board is processed, an enterprise mark or a product model mark is generally required to be printed on the side surface of the insulation board. The current seal mark device need the manual work to put the heated board to the seal mark device one by one at the printing in-process, takes away one by one after the seal mark is ended, and this kind of mode is consuming time and is hard, leads to seal mark inefficiency.

Disclosure of Invention

In view of this, the utility model provides an inorganic fireproof polyphenyl insulation board marking device, which is automatic in marking process, time-saving and labor-saving, and improves marking efficiency.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

an inorganic fireproof polyphenyl insulation board marking device comprises a bearing frame, a pushing mechanism, an insulation board fence, a conveying mechanism, a printing mechanism and a control mechanism, wherein the pushing mechanism, the insulation board fence, the conveying mechanism, the printing mechanism and the control mechanism are arranged on the bearing frame, a gap for an insulation board to pass through is reserved between the lower end of the insulation board fence and the bearing frame, the pushing mechanism is positioned on the inner side of the insulation board fence, the conveying mechanism is positioned on the outer side of the insulation board fence, the pushing mechanism is connected with the conveying mechanism through a chain, the printing mechanism is positioned on two sides of the pushing mechanism, the pushing mechanism can apply force to the insulation board at the bottommost layer on the bearing frame so as to push the insulation board marked by the printing mechanism to the conveying mechanism, the control mechanism comprises a distance sensor and a control box, the distance sensor is electrically connected with the control box, and the control box is respectively electrically connected with the printing mechanism and the pushing mechanism, the distance sensor outputs a detection signal to the control box according to the position of the pushing mechanism, and the control box can independently drive the printing mechanism and the pushing mechanism in an intermittent mode according to the detection signal so that the heat insulation plates stacked on the bearing frame in multiple layers are pushed to the conveying mechanism after being printed one by one.

Preferably, the pushing mechanism comprises a first chain wheel shaft assembly, a second chain wheel shaft assembly, two push rods and two driving motors, the first chain wheel shaft assembly and the second chain wheel shaft assembly are arranged on the bearing frame in parallel, and are connected with each other through a transmission chain, the two push rods are arranged on the transmission chain, the bearing frame is provided with a heat insulation plate support frame for placing heat insulation plates, the two push rods are respectively positioned above and below the heat insulation plate support frame, the two driving motors are respectively positioned below the first chain wheel shaft assembly and the second chain wheel shaft assembly, chain wheels at the output ends of the two driving motors are respectively connected with the first chain wheel shaft assembly and the second chain wheel shaft assembly through chains, the driving motors are electrically connected with the control box, and the driving motors drive the first chain wheel shaft assembly and the first chain wheel shaft assembly to rotate under the control of the control box, so that the two push rods can continuously move along the upper surface and the lower surface of the insulation board support frame.

Preferably, the insulation board support frame is further provided with a correction rod, the correction rod is arranged in parallel with the push rod, and the correction rod is matched with the push rod, so that the push rod can be opposite to the insulation board after contacting with the correction rod.

Preferably, the conveying mechanism comprises a plurality of rollers which are arranged on the bearing frame in parallel, the rollers are rotatably connected to the bearing frame, adjacent rollers are connected through a chain, the roller close to one side of the first chain wheel shaft assembly is connected with the first chain wheel shaft assembly through a chain, and therefore all the rollers can be driven to rotate.

Preferably, the printing mechanism includes mount pad, electronic telescoping cylinder and seal mark head, mount pad fixed connection be in bear on the frame, electronic telescoping cylinder installs on the mount pad, the top at electronic telescoping cylinder is connected to the seal mark head, electronic telescoping cylinder's input with control box electric connection, control box can drive thereby electronic telescoping cylinder is flexible to drive the seal mark head and carries out the seal mark to the heated board that bears the frame.

Preferably, control box internally mounted has singlechip and timer, distance sensor's output with the input electric connection of singlechip, the output of timer with the input electric connection of singlechip sets up push mechanism and printing mechanism's action time interval through the timer to make the singlechip independently right with intermittent type nature the printing mechanism with push mechanism drives.

Preferably, the heat preservation board fence is movably connected with a height adjusting rod, pin holes are formed in two ends of the height adjusting rod, a plurality of pin holes coaxial with the pin holes of the adjusting rod are longitudinally formed in two ends of the heat preservation board fence, and a pin shaft penetrates through the pin holes in two ends of the height adjusting rod and two ends of the heat preservation board fence so as to adjust the height range of the height adjusting rod.

According to the technical scheme, the utility model provides an inorganic fireproof polyphenyl insulation board marking device, which has the following beneficial effects compared with the prior art: the utility model comprises a bearing frame, a pushing mechanism, a heat preservation board fence, a conveying mechanism, a printing mechanism and a control mechanism, wherein a gap for a heat preservation board to pass through is reserved between the lower end of the heat preservation board fence and the bearing frame, the pushing mechanism is positioned at the inner side of the heat preservation board fence, the conveying mechanism is positioned at the outer side of the heat preservation board fence, the pushing mechanism is connected with the conveying mechanism through a chain, the printing mechanism is positioned at two sides of the pushing mechanism, the pushing mechanism applies force to the heat preservation board at the bottommost layer on the bearing frame so as to push the heat preservation board printed by the printing mechanism to the conveying mechanism, the control mechanism comprises a distance sensor and a control box, the distance sensor is electrically connected with the control box, the control box is respectively electrically connected with the printing mechanism and the pushing mechanism, the distance sensor can output a detection signal to the control box according to the position of the pushing mechanism, so that the control box independently drives the printing mechanism and the pushing mechanism in an intermittent mode, therefore, the heat preservation plates stacked in multiple layers are conveyed to the conveying mechanism after being marked one by one. The automatic label printing machine is simple to operate, realizes automatic label printing, saves time and labor, and is high in label printing efficiency.

Drawings

Fig. 1 is a schematic perspective view of an inorganic fireproof polyphenyl insulation board marking device.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a schematic perspective view of fig. 1 at another angle.

Fig. 4 is a working state diagram of the marking device for the inorganic fireproof polyphenyl insulation board.

In the figure: the automatic printing device comprises a bearing frame 10, a heat insulation plate supporting frame 11, a correcting rod 111, a pushing mechanism 20, a first chain wheel shaft assembly 21, a second chain wheel shaft assembly 22, a driving motor 23, a push rod 24, a heat insulation plate barrier 30, a height adjusting rod 31, a conveying mechanism 40, a roller 41, a printing mechanism 50, a mounting seat 51, an electric telescopic cylinder 52, a marking head 53, a control mechanism 60, a distance sensor 61, a control box 62 and a heat insulation plate 70.

Detailed Description

The technical solutions and effects of the embodiments of the present invention will be further described in detail below with reference to the accompanying drawings of the present invention.

Referring to fig. 1 to 4, the present invention provides an inorganic fireproof polystyrene insulation board marking device, which includes a bearing frame 10, a pushing mechanism 20 mounted on the bearing frame 10, an insulation board fence 30, a conveying mechanism 40, a printing mechanism 50 and a control mechanism 60, wherein a gap for passing an insulation board 70 is left between the lower end of the insulation board fence 30 and the bearing frame 10, the pushing mechanism 20 is located inside the insulation board fence 30, the conveying mechanism 40 is located outside the insulation board fence 30, the pushing mechanism 20 is connected to the conveying mechanism 40 through a chain, the printing mechanism 50 is located on both sides of the pushing mechanism 20, the pushing mechanism 20 can apply force to the insulation board 70 on the bottom layer of the bearing frame 10 to push the insulation board 70 marked by the printing mechanism 50 to the conveying mechanism 40, the control mechanism 60 includes a distance sensor 61 and a control box 62, the distance sensor 61 is electrically connected with the control box 62, the control box 62 is electrically connected with the printing mechanism 50 and the pushing mechanism 20 respectively, the distance sensor 61 outputs a detection signal to the control box 62 according to the position of the pushing mechanism 20, and the control box 62 can independently drive the printing mechanism 50 and the pushing mechanism 20 in an intermittent mode according to the detection signal, so that the heat preservation plates 70 stacked on the bearing frame 10 in multiple layers are printed one by one and then pushed to the conveying mechanism 40.

Further, push mechanism 20 includes first sprocket shaft subassembly 21, second sprocket shaft subassembly 22, two push rods 24 and two driving motor 23, first sprocket shaft subassembly 21 and second sprocket shaft subassembly 22 parallel arrangement each other are in bear on the frame 10, and connect through drive chain between the two, two push rods 24 are installed on drive chain, bear and be equipped with the heated board support frame 11 that is used for placing heated board 70 on the frame 10, two push rods are located heated board support frame 11's top and below respectively, two driving motor 23 divide to be located first sprocket shaft subassembly 21 and second sprocket shaft subassembly 22 below, the sprocket of two driving motor 23 output pass through the chain respectively with first sprocket shaft subassembly 21 and second sprocket shaft subassembly 22 are connected, driving motor 23 with control box 62 electric connection, driving motor 23 drives first sprocket shaft subassembly 21 and rotates under control box 62 control, so that the two push rods 24 can continuously move along the upper and lower surfaces of the insulation board support frame 11. The first sprocket shaft assembly 21 and the first sprocket shaft assembly 21 in this embodiment have the same structure, and are composed of a rotating shaft and a sprocket sleeved on the rotating shaft.

Further, still be equipped with correction rod 111 on the heated board support frame 11, correction rod 111 with push rod 24 is parallel arrangement relatively, and correction rod 111 and push rod mutually support to can just be to heated board 70 after making push rod 24 and correction rod 111 contact. Specifically, correcting rod 111 is close to second sprocket shaft assembly 22 fixed connection on heated board support frame 11, and the purpose of setting up correcting rod 111 makes push rod 24 just can be to the piece that is the bottommost among the heated board 70 that the multilayer stacked, avoids taking place the stirring accident, influences the seal mark process.

Further, the conveying mechanism 40 includes a plurality of rollers 41 disposed in parallel on the carrier 10, the rollers 41 are rotatably connected to the carrier 10, adjacent rollers 41 are connected by a chain, and the roller 41 near one side of the first sprocket shaft assembly 21 is connected to the first sprocket shaft assembly 21 by a chain, so as to drive all the rollers 41 to rotate.

Further, the printing mechanism 50 includes a mounting base 51, an electric telescopic cylinder 52 and a marking head 53, the mounting base 51 is fixedly connected to the bearing frame 10, the electric telescopic cylinder 52 is mounted on the mounting base 51, the marking head 53 is connected to the top end of the electric telescopic cylinder 52, the input end of the electric telescopic cylinder 52 is electrically connected to the control box 62, and the control box 62 can drive the electric telescopic cylinder 52 to stretch so as to drive the marking head 53 to mark the heat preservation board 70 on the bearing frame 10.

Further, control box 62 internally mounted has singlechip and timer, distance sensor 61 the output with the input electric connection of singlechip, the output of timer with the input electric connection of singlechip sets up push mechanism 20 and print mechanism 50's action time interval through the timer to make the singlechip independently right with intermittent type nature print mechanism 50 with push mechanism 20 drives.

Further, a height adjusting rod 31 is movably connected to the heat-insulating plate barrier 30, pin holes are formed in two ends of the height adjusting rod 31, a plurality of pin holes coaxial with the adjusting rod pin holes are longitudinally formed in two ends of the heat-insulating plate barrier 30, and a pin shaft penetrates through the pin holes in two ends of the height adjusting rod 31 and two ends of the heat-insulating plate barrier 30 to adjust the height range of the height adjusting rod 31. The height of the height adjusting rod 31 can be adjusted by a user according to the thickness of the heat insulation board 70, so that the heat insulation board 70 just passes through.

The working process of the utility model is as follows: a worker places the heat preservation plates 70 stacked in multiple layers in the heat preservation plate enclosure barriers 30 on the bearing frame 10, the control box 62 is started, the control box 62 drives the electric telescopic cylinder 52 to stretch and retract so as to drive the marking head 5353 to mark the heat preservation plate 70 at the bottommost layer in the heat preservation plates 70 stacked in multiple layers on the bearing frame 10, after the marking is finished, the control box 62 drives the two driving motors 23 of the pushing mechanism 20 to work so as to enable the first chain wheel shaft assembly 21 and the second chain wheel shaft assembly 22 to rotate, so that the push rod 24 moves along the transmission direction of the transmission chain and pushes the heat preservation plate 70 printed with the marking forward, and when the heat preservation plate 70 enters the conveying mechanism from a gap below the heat preservation plate enclosure barriers 30, the heat preservation plates 70 stacked in multiple layers descend due to self weight; when the push rod moves to a distance value set by the distance sensor 61, the distance sensor 61 outputs a detection signal to the control box 62, and when the control box 62 receives the detection signal output by the distance sensor 61, the driving of the driving motor 23 is stopped so as to finish the pushing action of the push rod, and meanwhile, the electric telescopic cylinder 52 is started again to drive the marking head 53 to mark the next insulation board 70; the timer in the control box 62 is used for setting the action time interval between the pushing mechanism 20 and the printing mechanism 50, so that the pushing action of the heat insulation plates 70 after the marks are printed can be repeatedly implemented, and the heat insulation plates 70 stacked in multiple layers on the bearing frame 10 are printed and then are conveyed to the conveying mechanism one by one.

The utility model comprises a bearing frame 10, a pushing mechanism 20 arranged on the bearing frame 10, a heat preservation plate fence 30, a conveying mechanism 40, a printing mechanism 50 and a control mechanism 60, wherein a gap for a heat preservation plate 70 to pass through is reserved between the lower end of the heat preservation plate fence 30 and the bearing frame 10, the pushing mechanism 20 is positioned at the inner side of the heat preservation plate fence 30, the conveying mechanism 40 is positioned at the outer side of the heat preservation plate fence 30, the pushing mechanism 20 is connected with the conveying mechanism 40 through a chain, the printing mechanism 50 is positioned at two sides of the pushing mechanism 20, the pushing mechanism 20 applies force to the heat preservation plate 70 at the bottommost layer on the bearing frame 10 so as to push the heat preservation plate 70 marked by the printing mechanism 50 to the conveying mechanism 40, the control mechanism 60 comprises a distance sensor 61 and a control box 62, the distance sensor 61 is electrically connected with the control box 62, the control box 62 is respectively electrically connected with the printing mechanism 50 and the pushing mechanism 20, the distance sensor 61 can output a detection signal to the control box 62 according to the position of the pushing mechanism 20, and the control box 62 can drive the printing mechanism 50 and the pushing mechanism 20 independently and intermittently, so that the heat-insulating plates 70 stacked in multiple stages are individually labeled and conveyed to the conveying mechanism. The automatic label printing machine is simple to operate, realizes automatic label printing, saves time and labor, and is high in label printing efficiency.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides an inorganic fire prevention polyphenyl heated board seal mark device which characterized in that: the device comprises a bearing frame, a pushing mechanism, a heat preservation board fence, a conveying mechanism, a printing mechanism and a control mechanism, wherein the pushing mechanism, the heat preservation board fence, the conveying mechanism, the printing mechanism and the control mechanism are arranged on the bearing frame, a gap for a heat preservation board to pass through is reserved between the lower end of the heat preservation board fence and the bearing frame, the pushing mechanism is positioned on the inner side of the heat preservation board fence, the conveying mechanism is positioned on the outer side of the heat preservation board fence, the pushing mechanism is connected with the conveying mechanism through a chain, the printing mechanism is positioned on two sides of the pushing mechanism, the pushing mechanism can apply force to the heat preservation board at the bottommost layer on the bearing frame so as to push the heat preservation board printed by the printing mechanism to the conveying mechanism, the control mechanism comprises a distance sensor and a control box, the distance sensor is electrically connected with the control box, the control box is respectively electrically connected with the printing mechanism and the pushing mechanism, and the distance sensor outputs detection signals to the control box according to the position of the pushing mechanism, the control box can drive the printing mechanism and the pushing mechanism independently in an intermittent mode according to the detection signal, so that the heat insulation plates stacked on the bearing frame in multiple layers are printed one by one and then pushed to the conveying mechanism.

2. The inorganic fireproof polyphenyl insulation board marking device according to claim 1, characterized in that: the pushing mechanism comprises a first chain wheel shaft assembly, a second chain wheel shaft assembly, two push rods and two driving motors, the first chain wheel shaft assembly and the second chain wheel shaft assembly are arranged on the bearing frame in parallel, the two push rods are connected through a transmission chain, the two push rods are arranged on the transmission chain, the bearing frame is provided with a heat insulation plate supporting frame for placing a heat insulation plate, the two push rods are respectively positioned above and below the insulation board support frame, the two driving motors are respectively positioned below the first chain wheel shaft component and the second chain wheel shaft component, chain wheels at the output ends of the two driving motors are respectively connected with the first chain wheel shaft component and the second chain wheel shaft component through chains, the driving motor is electrically connected with the control box and drives the first chain wheel shaft assembly and the first chain wheel shaft assembly to rotate under the control of the control box, so that the two push rods can continuously move along the upper surface and the lower surface of the insulation board support frame.

3. The inorganic fireproof polyphenyl insulation board marking device according to claim 2, characterized in that: still be equipped with the correcting lever on the heated board support frame, the correcting lever with the relative parallel arrangement of push rod, correcting lever and push rod mutually support to can be just to the heated board after making push rod and correcting lever contact.

4. The inorganic fireproof polyphenyl insulation board marking device according to claim 1, characterized in that: the conveying mechanism comprises a plurality of rollers which are arranged on the bearing frame in parallel, the rollers are rotatably connected to the bearing frame, adjacent rollers are connected through a chain, the rollers close to the pushing mechanism are connected with the pushing mechanism through the chain, and therefore all the rollers can be driven to rotate.

5. The inorganic fireproof polyphenyl insulation board marking device according to claim 1, characterized in that: the printing mechanism comprises a mounting seat, an electric telescopic cylinder and a printing head, the mounting seat is fixedly connected to the bearing frame, the electric telescopic cylinder is mounted on the mounting seat, the printing head is connected to the top end of the electric telescopic cylinder, the input end of the electric telescopic cylinder is electrically connected with the control box, and the control box can drive the electric telescopic cylinder to stretch and drive the printing head to print marks on the heat insulation board on the bearing frame.

6. The inorganic fireproof polyphenyl insulation board marking device according to claim 1, characterized in that: control box internally mounted has singlechip and timer, distance sensor's output with the input electric connection of singlechip, the output of timer with the input electric connection of singlechip sets up push mechanism and printing mechanism's action time interval through the timer to make the singlechip independently right with intermittent type nature the printing mechanism with push mechanism drives.

7. The inorganic fireproof polyphenyl insulation board marking device according to claim 1, characterized in that: the heat preservation board encloses the pin hole that keeps off the fence and go up swing joint has the altitude mixture control pole, the altitude mixture control pole both ends are equipped with the pinhole, heat preservation board encloses the pin hole that keeps off the fence both ends and vertically still be equipped with a plurality of and the coaxial pinhole of altitude mixture control pole, through penetrating the round pin axle in the pinhole at altitude mixture control pole both ends and heat preservation board encloses the fence both ends to adjust the height range of altitude mixture control pole.

Images