Laterally sliding heat press head

By rationally arranging the guide slide rods and rails, the problem of easy damage to the guide slide rods was solved, the service life of the heat pressing head was extended and burns were avoided, thus improving the stability and safety of the equipment.

CN224426863UActive Publication Date: 2026-06-30河南印都数码科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
河南印都数码科技有限公司
Filing Date
2025-09-02
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The guide slide of the existing heat press head is easily damaged, which affects its service life and poses a risk of burns.

Method used

A horizontally sliding heat press head is designed with a reasonable layout of guide rods and guide rails. The guide rails bear most of the weight, while the guide rods bear a smaller portion. Heat transfer is reduced through the heat insulation cavity, increasing connection stability.

Benefits of technology

It extends the service life of the heating head, avoids burns, and improves the stability and safety of the equipment.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224426863U_ABST
    Figure CN224426863U_ABST
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Abstract

This utility model relates to a horizontally sliding heat press head; the horizontally sliding heat press head includes a sliding frame, a guide rod, a guide rail, and a heat press plate assembly; the sliding frame slides in conjunction with the guide rod and guide rail; a downward pressing cylinder is installed on the top of the sliding frame; the heat press plate assembly is installed at the output end of the pressing cylinder; the sliding frame has a C-shaped structure, and its bottom slides in conjunction with the guide rod and guide rail; the guide rail is located directly below the heat press plate assembly; the guide rod is located on the back of the sliding frame. In this utility model, the guide rod and guide rail are installed at the bottom of the sliding frame; the guide rod and guide rail jointly bear the weight of the heat press plate assembly and the sliding frame; wherein, the guide rail is located directly below the heat press assembly, closer to the center of the heat press assembly and the sliding frame, and bears most of the weight; while the guide rod only bears a small portion of the weight; the layout of the guide rod and guide rail is more reasonable, ensuring the service life of the heat press head.
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Description

Technical Field

[0001] This utility model relates to the technical field of heat press machine accessories, and in particular to a heat press head that slides laterally. Background Technology

[0002] A heat press is a device that heats patterns onto the surface of fabric. They are divided into manual and automatic heat presses. Automatic heat presses are fully automated and more suitable for large-scale production, generally used by large enterprises. Manual heat presses require manual operation and are suitable for small-batch production. Manual heat presses are more suitable for customized fabric production. To improve the heat pressing efficiency, existing technologies have proposed dual-station heat presses, such as a dual-station heat press with patent publication number CN218615876U, which features a specially designed heat pressing head capable of lateral movement. See also... Figure 8 The mounting bracket 130 of the heat press head is generally inverted L-shaped; the mounting bracket 130 is connected to the base 110 via a guide rail 111 and a guide rod 121 on the back. The guide rod 121 is located above the guide rail 111. Because the mounting box 140 contains a cylinder 180; and the mounting box 140 is connected to a pressing plate assembly 150; both the cylinder 180 and the pressing plate assembly 150 are relatively heavy components within the pressing machine, the center of gravity of the mounting frame 130, mounting box 140, and pressing plate assembly 150 is close to the mounting box 140 and far from the guide rail 111 and guide rod 121, with a gravity of G; under static conditions, the downward force F exerted by the guide rail 111 on the mounting frame 130; the supporting force T exerted by the guide rod 121 on the mounting frame 130; the horizontal distance l1 between the center of gravity of the mounting frame 130, mounting box 140, and pressing plate assembly 150 and the guide rod 121; and the horizontal distance l2 between the guide rail 111 and the guide rod 121; according to the principle of static equilibrium, the following can be listed:

[0003]

[0004] Therefore, the supporting force T of the guide slide rod 121 on the mounting bracket 130 is greater than the weight G of the mounting bracket 130, mounting box 140, and heat press assembly 150. Correspondingly, the pressure on the guide slide rod 121 is equal in magnitude but opposite in direction to the supporting force T, making the guide slide rod 121 prone to damage and affecting the service life of the heat press head. Utility Model Content

[0005] The purpose of this invention is to solve the above problems and provide a horizontally sliding heat pressing head.

[0006] The technical solution of this utility model is as follows: A horizontally sliding heat press head includes a sliding frame, a guide rod, a guide rail, and a heat press assembly; the sliding frame slides in conjunction with the guide rod and guide rail; the guide rod and guide rail provide guidance for the horizontal sliding of the sliding frame; a downward pressing cylinder is installed on the top of the sliding frame; the heat press assembly is installed at the output end of the pressing cylinder; the sliding frame has a C-shaped structure, and its bottom slides in conjunction with the guide rod and guide rail; relatively speaking, the load-bearing capacity of the guide rail is stronger than that of the guide rod; and the smaller the horizontal distance between the guide rod / guide rail and the center of the heat press assembly, the greater the load; because the center of gravity of the sliding frame and the heat press assembly is very close to the center of the heat press assembly; the guide rail is located directly below the heat press assembly; the guide rod is located on the back of the sliding frame, which is a reasonable layout.

[0007] Preferably, a linear bearing is installed at the bottom of the sliding frame; the linear bearing slides in conjunction with the guide slide rod to reduce the lateral sliding resistance of the sliding frame.

[0008] Furthermore, a rear cross brace is provided at the bottom of the sliding frame; a linear bearing is installed at the bottom of the rear cross brace to provide stable support for the sliding frame.

[0009] Preferably, the bottom of the sliding frame is provided with a front crossbeam; a slider is installed on the front crossbeam; the slider is slidably fastened to the guide rail, realizing the sliding connection between the sliding frame and the guide rail, and also ensuring the connection strength between the sliding frame and the guide rail.

[0010] Furthermore, the guide rail is installed on the top surface of the slider; the slider is installed on the top surface of the front crossarm; when the pressing plate assembly is pressed down, the pressing plate assembly is subjected to a reverse supporting force. This supporting force is much greater than the weight of the pressing cylinder, the pressing plate assembly, and the sliding frame. The force on the sliding frame at the slider changes from vertically upward as in the static state to vertically downward, and the vertically downward force is much greater than the vertically upward force. The guide rail is located above the front crossarm, which can stably press down the slider and the front crossarm, ensuring a stable connection between the guide rail and the slider.

[0011] Preferably, the length of the guide slide rod is greater than the length of the guide slide rail; the guide slide rail is installed on the frame of the steamer; the guide slide rod passes through the frame of the steamer and through the side of the frame; however, the guide slide rod lacks axial limiting; therefore, limiting components are provided at both ends of the guide slide rod to axially limit the guide slide rod; the limiting component includes an end plate, a connecting ring, and a connecting screw; the end plate abuts against the end face of the guide slide rod to seal the guide slide rod; the connecting ring is fitted outside the guide slide rod and can slide along the axial direction of the guide slide rod; the connecting screw passes through the end plate and is threadedly connected to the connecting ring; the end plate and the connecting ring cooperate with each other to clamp the side of the frame to achieve the connection between the end plate, the connecting ring, and the frame.

[0012] Furthermore, within the limiting assembly, there are several connecting screws distributed around the circumference of the guide slide rod axis, improving the connection stability between the end plate and the connecting ring.

[0013] Preferably, the heating plate assembly includes a lower pressure plate, an outer shell, an inner shell, and a heating box; the center of the lower pressure plate is connected to the output end of the lower pressure cylinder and is driven to move vertically up and down by the lower pressure cylinder; the four corners of the lower pressure plate are connected to the inner shell; the inner shell covers the outside of the heating box and is connected to the heating box; the lower pressure plate presses down on the heating box; the outer shell covers the outside of the inner shell, forming a heat insulation cavity between them; the center of the outer shell has a through hole corresponding to the lower pressure plate to facilitate the connection between the lower pressure plate and the inner shell; heating resistance wires are evenly distributed at the bottom of the heating box; the heating resistance wires generate heat and evenly transfer the heat to the bottom of the heating box; excess heat is reduced and transferred to the outer shell due to the presence of the heat insulation cavity, thus preventing burns.

[0014] Furthermore, the heating plate assembly also includes mounting screws and separator nuts; the mounting screws pass through the outer shell, separator nuts, and inner shell, and are threadedly connected to the heating box; thus, the heat insulation cavity can be stably formed.

[0015] Furthermore, the ironing plate assembly also includes a buffer screw, a mold spring, and an adjusting nut; the buffer screw passes through the lower pressure plate, the mold spring, the adjusting nut, and the inner shell, and is threadedly connected to the heating box body; the mold spring can reduce the impact of the lower pressure plate pressing down, so that the bottom of the heating box body is stably pressed against the fabric surface; the adjusting nut is threadedly connected to the buffer screw and abuts against the lower end of the mold spring; changing the position of the adjusting nut on the buffer screw can pre-compress the mold spring and improve the mold spring's ability to absorb the downward pressure impact.

[0016] Furthermore, a vertical guide shaft is installed at the rear end of the lower pressure plate; a guide sleeve that slides with the vertical guide shaft is installed at the top of the sliding frame; the vertical guide shaft and the guide sleeve slide with each other to provide guidance for the vertical lifting and lowering of the lower pressure plate.

[0017] Furthermore, the bottom of the heating box is provided with several horizontal and vertical plates; the horizontal and vertical plates are arranged crosswise inside the heating box; the bottom of the horizontal plates is provided with through holes A; the bottom of the vertical plates is provided with through holes B; the heating resistance wire folds back and forth at the bottom of the heating box, passing through through holes A and through holes B; the horizontal and vertical plates fully limit the heating resistance wire, ensuring the installation stability of the heating resistance wire; the folding heating resistance wire ensures that the bottom of the heating box generates heat evenly, and the bottom of the heating box dissipates heat evenly, ensuring the heat-pressing effect.

[0018] The beneficial effects of this utility model are as follows: The horizontally sliding heat pressing head of this utility model has the following advantages:

[0019] (1) The guide slide rod and guide slide rail of this utility model are installed at the bottom of the sliding frame; the guide slide rod and guide slide rail jointly bear the weight of the pressing plate assembly and the sliding frame; wherein, the guide slide rail is located directly below the pressing plate assembly, closer to the center of the pressing assembly and the sliding frame, and bears most of the weight; while the guide slide rod only bears a small part of the weight; the layout of the guide slide rod and guide slide rail is more reasonable, ensuring the service life of the pressing head;

[0020] (2) The outer shell of this utility model covers the outer side of the inner shell, forming a heat insulation cavity between them; due to the presence of the heat insulation cavity, excess heat can be reduced and transferred to the outer shell, thus avoiding burns. Attached Figure Description

[0021] Figure 1 This is a front view of the horizontally sliding heat pressing head of this utility model;

[0022] Figure 2 yes Figure 1 AA section view;

[0023] Figure 3 yes Figure 2 A magnified view of the I-shaped image;

[0024] Figure 4 yes Figure 2 BB section view;

[0025] Figure 5 yes Figure 4 II magnified view;

[0026] Figure 6 This is a 3D view of the heating plate assembly;

[0027] Figure 7 This is a perspective view of the horizontally sliding heat pressing head of this utility model;

[0028] Figure 8 This is a structural diagram of existing technology;

[0029] In the diagram: 1. Sliding frame, 11. Lower cylinder, 111. Mounting nut, 112. Stage, 113. Anti-loosening nut, 12. Linear bearing, 13. Crossbeam, 14. Slider, 15. Rear cross brace, 16. Guide sleeve, 17. Operating handle, 18. Connecting rod, 2. Guide slide rod, 21. End plate, 22. Connecting ring, 23. Connecting screw, 3. Guide slide rail, 41. Lower pressure plate, 411. Vertical guide shaft, 42. Outer shell, 421. Through hole, 422. Ventilation hole, 43. Inner shell, 44. Heating box, 441. Heating resistance wire, 4411. Insulating sleeve, 44111. Wiring notch, 4412. Insulating cover, 442. Horizontal vertical plate, 4421. Through hole A, 443. Vertical plate, 4431. Through hole B, 444. Gap, 445. Vertical connecting post A, 446. Vertical connecting post B, 447. Temperature probe, 45. Heat insulation cavity, 461. Mounting screw, 462. Separating nut, 471. Buffer screw, 472. Mold spring, 473. Adjusting nut, 48. Protective box, 481. Round box body, 482. Round buckle cover. Detailed Implementation

[0030] See Figure 1-7 A laterally sliding heat press head includes a sliding frame 1, a guide rod 2, a guide rail 3, and a heat press plate assembly. The sliding frame 1 is slidably engaged with the guide rod 2 and the guide rail 3. The guide rod 2 and the guide rail 3 provide guidance for the lateral sliding of the sliding frame 1. A downward pressing cylinder 11 is installed on the top of the sliding frame 1. The heat press plate assembly is installed at the output end of the pressing cylinder 11. The sliding frame 1 has a C-shaped structure, and its bottom is slidably engaged with the guide rod 2 and the guide rail 3. Relatively speaking, the load-bearing capacity of the guide rail 3 is stronger than that of the guide rod 2. The smaller the horizontal distance between the guide rod 2, the guide rail 3, and the center of the heat press plate assembly, the greater the load. This is because the center of gravity of the sliding frame 1 and the heat press plate assembly is very close to the center of the heat press plate assembly. The guide rail 3 is located directly below the heat press plate assembly. The guide rod 2 is located on the back of the sliding frame 1, which is a reasonable layout.

[0031] Compared with the prior art, this utility model installs the guide slide rod 2 and the guide slide rail 3 at the bottom of the sliding frame 1; the guide slide rod 2 and the guide slide rail 3 jointly bear the weight of the heating plate assembly and the sliding frame 1; wherein, the guide slide rail 3 is located directly below the heating plate assembly, closer to the center of the heating assembly and the sliding frame 1, and bears most of the weight; while the guide slide rod 2 only bears a small part of the weight; the layout of the guide slide rod 2 and the guide slide rail 3 is more reasonable, ensuring the service life of the heating head.

[0032] A linear bearing 12 is installed at the bottom of the sliding frame 1; the linear bearing 12 slides in conjunction with the guide slide rod 2 to reduce the lateral sliding resistance of the sliding frame 1.

[0033] The sliding frame 1 is provided with a rear cross brace 15 at the bottom; the linear bearing 12 is installed at the bottom of the rear cross brace 15 to provide stable support for the sliding frame 1.

[0034] The bottom of the sliding frame 1 is provided with a front crossbeam 13; a slider 14 is installed on the front crossbeam 13; the slider 14 is slidably fastened to the guide rail 3, realizing the sliding connection between the sliding frame 1 and the guide rail 3, and also ensuring the connection strength between the sliding frame 1 and the guide rail 3.

[0035] The length of guide slide rod 2 is greater than the length of guide slide rail 3; guide slide rail 3 is installed on the frame of the steamer; guide slide rod 2 passes through the frame of the steamer and through the side of the frame; however, guide slide rod 2 lacks axial limiting; therefore, limiting components are provided at both ends of guide slide rod 2 to axially limit guide slide rod 2; the limiting components include end plate 21, connecting ring 22, and connecting screw 23; end plate 21 abuts against the end face of guide slide rod 2 to seal guide slide rod 2; connecting ring 22 is fitted outside guide slide rod 2 and can slide along the axial direction of guide slide rod 2; connecting screw 23 passes through end plate 21 and is threadedly connected to connecting ring 22; end plate 21 and connecting ring 22 cooperate with each other to clamp the side of the frame to achieve the connection between end plate 21, connecting ring 22 and frame.

[0036] Within the limiting assembly, there are several connecting screws 23, distributed circumferentially around the axis of the guide slide rod 2, to improve the connection stability between the end plate 21 and the connecting ring 22. In this embodiment, there are three connecting screws 23 within the limiting assembly.

[0037] The heating plate assembly includes a lower pressure plate 41, an outer shell 42, an inner shell 43, and a heating box 44. The center of the lower pressure plate 41 is connected to the output end of the lower pressure cylinder 11 and is driven to move vertically up and down by the lower pressure cylinder 11. The four corners of the lower pressure plate 41 are connected to the inner shell 43. The inner shell 43 covers the outside of the heating box 44 and is connected to the heating box 44. The lower pressure plate 41 presses down with the heating box 44. The outer shell 42 covers the outside of the inner shell 43, forming a heat insulation cavity 45 between the outer shell 42 and the inner shell 43. The center of the outer shell 42 is provided with a through hole 421 that corresponds to and matches the lower pressure plate 41, so as to facilitate the connection between the lower pressure plate 41 and the inner shell 43. Heating resistance wires 441 are evenly distributed at the bottom of the heating box 44. The heating resistance wires 441 generate heat and evenly transfer the heat to the bottom of the heating box 44. Excess heat is reduced and transferred to the outer shell 42 due to the presence of the heat insulation cavity 45, thus avoiding burns.

[0038] The outer casing 42 has ventilation holes 422 on its side, which cooperate with the through holes 421 to increase the air circulation in the heat insulation cavity 45 and improve the heat insulation effect of the heat insulation cavity 45.

[0039] The heating plate assembly also includes mounting screws 461 and separator nuts 462; the mounting screws 461 pass through the outer shell 42, separator nuts 462, and inner shell 43, and are threadedly connected to the heating box 44; thus, the heat insulation cavity 45 can be stably formed.

[0040] The heating box 44 has gaps 444 between its top and sides and the inner shell 43, which reduces heat transfer from the heating box 44 to the inner shell 43 and lowers the surface temperature of the outer shell 42. The bottom of the heating box 44 has two vertical connecting posts, A 445 and B 446, whose tops extend beyond the top of the heating box 44. A mounting screw 461 is threaded to the vertical connecting post A 445; a buffer screw 471 is threaded to the vertical connecting post B 446. The vertical connecting posts A 445 and B 446 ensure the formation of the gaps 444.

[0041] The ironing plate assembly also includes a buffer screw 471, a mold spring 472, and an adjusting nut 473. The buffer screw 471 passes through the lower pressure plate 41, the mold spring 472, the adjusting nut 473, and the inner shell 43, and is threadedly connected to the heating box body 44. The mold spring 472 can reduce the impact of the lower pressure plate 41 pressing down, so that the bottom of the heating box body 44 is stably pressed on the fabric surface. The adjusting nut 473 is threadedly connected to the buffer screw 471 and abuts against the lower end of the mold spring 472. Changing the position of the adjusting nut 473 on the buffer screw 471 can pre-compress the mold spring 472 and improve the ability of the mold spring 472 to absorb the downward impact.

[0042] A vertical guide shaft 411 is installed at the rear end of the lower pressure plate 41; a guide sleeve 16 is installed at the top of the sliding frame 1, which slides and engages with the vertical guide shaft 411; the vertical guide shaft 411 and the guide sleeve 16 slide and engage to provide guidance for the vertical lifting and lowering of the lower pressure plate 41.

[0043] The bottom of the heating box 44 is provided with several horizontal vertical plates 442 and several vertical vertical plates 443; the horizontal vertical plates 442 and vertical vertical plates 443 are arranged crosswise inside the heating box 44; the bottom end of the horizontal vertical plate 442 is provided with a through hole A 4421; the bottom end of the vertical plate 443 is provided with a through hole B 4431; the heating resistance wire 441 folds back and forth at the bottom of the heating box 44, passing through the through hole A 4421 and the through hole B 4431; the horizontal vertical plates 442 and vertical vertical plates 443 fully limit the heating resistance wire 441, ensuring the installation stability of the heating resistance wire 441; the folding heating resistance wire 441 ensures that the bottom of the heating box 44 generates heat evenly, so that the bottom of the heating box 44 dissipates heat evenly, ensuring the heat-pressing effect. In this embodiment, there are 4 horizontal vertical plates 442 and 2 vertical vertical plates 443.

[0044] The working principle of this embodiment is as follows: Guide rod 2 and guide rail 3 provide guidance for the lateral sliding of sliding frame 1; guide rod 2 and guide rail 3 are installed at the bottom of sliding frame 1; guide rod 2 and guide rail 3 jointly bear the weight of the heating plate assembly and sliding frame 1; relatively speaking, the load-bearing capacity of guide rail 3 is stronger than that of guide rod 2; and the smaller the horizontal distance between guide rod 2, guide rail 3 and the center of heating plate assembly, the greater the load; because the center of gravity of sliding frame 1 and heating plate assembly is very close to the center of heating plate assembly; guide rail 3 bears most of the weight; while guide rod 2 only bears a small part of the weight; the layout of guide rod 2 and guide rail 3 is more reasonable, ensuring the service life of heating head. The outer shell 42 covers the outer side of the inner shell 43, forming a heat insulation cavity 45 between them; heating resistance wire 441 generates heat and evenly transfers the heat to the bottom of heating box 44; excess heat can be reduced to the outer shell 42 due to the presence of heat insulation cavity 45, avoiding burns. The mold spring 472 reduces the impact of the lower pressure plate 41 pressing down, ensuring that the bottom of the heating box 44 is stably pressed against the fabric surface. Changing the position of the adjusting nut 473 on the buffer screw 471 allows the mold spring 472 to be pre-compressed, improving its ability to absorb the impact of the downward pressure. The vertical guide shaft 411 slides with the guide sleeve 16, providing guidance for the vertical lifting and lowering of the lower pressure plate 41.

[0045] Example 2: Example 2 is basically the same as Example 1, and the similarities will not be repeated. The difference is that the sliding frame 1 has a vertical operating handle 17 and a horizontal connecting rod 18 on its side; one end of the connecting rod 18 is connected to the operating handle 17, and the other end is connected to the top of the sliding frame 1. The horizontal sliding of the sliding frame 1 can be operated by the operating handle 17.

[0046] The output end of the lower cylinder 11 is threadedly connected to a mounting nut 111; the output end of the lower cylinder 11 is provided with a step 112; the step 112 cooperates with the mounting nut 111 to clamp the lower pressure plate 41, realizing the connection between the output end of the lower cylinder 11 and the lower pressure plate 41. The output end of the lower cylinder 11 is also threadedly connected to a lock nut 113; the upper end of the lock nut 113 abuts against the lower end of the mounting nut 111 to prevent the mounting nut 111 from falling off.

[0047] The heat press assembly also includes a disc-shaped protective box 48; the protective box 48 includes a disc body 481 and a disc cover 482; the disc cover 482 is fastened to the top of the disc body 481; a mounting screw 461 passes through the disc body 481; the protective box 48 protects the mounting screw 461.

[0048] Example 3: Example 3 is basically the same as Example 1, and the similarities will not be repeated. The difference is that: the guide rail 3 is installed on the top surface of the slider 14; the slider 14 is installed on the top surface of the front crossarm 13; when the pressing plate assembly is pressed down, the pressing plate assembly is subjected to a reverse supporting force. This supporting force is much greater than the weight of the pressing cylinder 11, the pressing plate assembly, and the sliding frame 1. The force on the sliding frame 1 at the slider 14 changes from vertically upward as in the static state to vertically downward, and the vertically downward force is much greater than the vertically upward force. The guide rail 3 is set above the front crossarm 13, which can stably press down the slider 14 and the front crossarm 13, ensuring a stable connection between the guide rail 3 and the slider 14.

[0049] A temperature probe 447 is installed at the center of the bottom of the heating box 44 to detect the temperature at the bottom of the heating box 44.

[0050] An insulating sleeve 4411 and an insulating cover 4412 are installed at the end of the heating resistance wire 441; the insulating cover 4412 is fastened onto the insulating sleeve 4411; the end of the heating resistance wire 441 is electrically connected to electrical energy; the insulating sleeve 4411 and the insulating cover 4412 provide insulation protection for the electrical connection end of the heating resistance wire 441, preventing the heating box 44 from being energized. The side of the insulating sleeve 4411 has a wiring notch 44111 for the wire supplying power to the heating resistance wire 441 to pass through; the wiring notch 44111 passes through the upper edge of the insulating sleeve 4411; the fastening structure of the insulating cover 4412 and the insulating sleeve 4411 simplifies the process of connecting the heating resistance wire 441 to power.

Claims

1. A transversely sliding hot-pressing head, comprising a sliding frame, a guide slide rod, a guide slide rail and a hot-pressing plate assembly; the sliding frame is in sliding fit with the guide slide rod and the guide slide rail; a downward pressing cylinder is mounted on the top of the sliding frame; an output end of the pressing cylinder is provided with the hot-pressing plate assembly; characterized in that, The sliding frame has a C-shaped structure, with its bottom slidingly engaging with the guide rod and guide rail; the guide rail is located directly below the heating plate assembly; and the guide rod is located on the back of the sliding frame.

2. A cross slide press head according to claim 1, characterised in that: A linear bearing is installed at the bottom of the sliding frame; the linear bearing slides in conjunction with the guide rod.

3. The cross slide press head of claim 1 wherein: The bottom of the sliding frame is equipped with a front crossbeam; a slider is installed on the front crossbeam; the slider is slidably fastened to the guide rail.

4. The cross slide press head of claim 1 wherein: The length of the guide slide rod is greater than the length of the guide slide rail; the guide slide rod is equipped with limiting components at both ends; the limiting components include end plates, connecting rings, and connecting screws; the end plates abut against the end faces of the guide slide rods; the connecting rings are fitted over the guide slide rods; the connecting screws pass through the end plates and are threadedly connected to the connecting rings.

5. A cross slide press head as claimed in claim 4, wherein: Inside the limiting assembly, there are several connecting screws, distributed around the circumference of the guide slide rod axis.

6. The cross slide press head of claim 1 wherein: The heating plate assembly includes a lower pressure plate, an outer shell, an inner shell, and a heating box. The center of the lower pressure plate is connected to the output end of the lower pressure cylinder. The four corners of the lower pressure plate are connected to the inner shell. The inner shell covers the outside of the heating box and is connected to the heating box. The outer shell covers the outside of the inner shell. The center of the outer shell has a through hole that matches the lower pressure plate. Heating resistance wires are evenly distributed at the bottom of the heating box.

7. A cross slide press head as claimed in claim 6, characterised in that: The heating plate assembly also includes mounting screws and separator nuts; the mounting screws pass through the outer shell, separator nuts, and inner shell, and are threadedly connected to the heating box.

8. The transversely sliding heat press head according to claim 6, characterized in that: The heating plate assembly also includes a buffer screw, a mold spring, and an adjusting nut; the buffer screw passes through the lower pressure plate, the mold spring, the adjusting nut, and the inner shell, and is threadedly connected to the heating box body; the adjusting nut is threadedly connected to the buffer screw and abuts against the lower end of the mold spring.

9. The transversely sliding heat press head according to claim 6, characterized in that: A vertical guide shaft is installed at the rear end of the lower pressure plate; a guide sleeve that slides with the vertical guide shaft is installed at the top of the sliding frame.

10. The transversely sliding heat press head according to claim 6, characterized in that: The bottom of the heating box is provided with several horizontal vertical plates and several vertical vertical plates; the horizontal and vertical plates are arranged crosswise inside the heating box; the bottom of the horizontal plate is provided with a through hole A; the bottom of the vertical plate is provided with a through hole B; the heating resistance wire folds back and forth at the bottom of the heating box and passes through through holes A and through holes B.